source: trunk/FACT++/src/InterpreterV8.cc@ 14984

Last change on this file since 14984 was 14983, checked in by tbretz, 12 years ago
Implemented to possibility to run an interactive javascript interpreter.
File size: 70.4 KB
Line 
1#include "InterpreterV8.h"
2
3#ifdef HAVE_V8
4
5#include <fstream>
6#include <sstream>
7#include <iomanip>
8
9#include <boost/tokenizer.hpp>
10
11#ifdef HAVE_NOVA
12#include <libnova/solar.h>
13#include <libnova/lunar.h>
14#include <libnova/transform.h>
15#endif
16
17#ifdef HAVE_SQL
18#include "Database.h"
19#endif
20
21#include <v8.h>
22
23#include "dim.h"
24#include "tools.h"
25#include "Readline.h"
26#include "externals/izstream.h"
27
28#include "WindowLog.h"
29
30using namespace std;
31using namespace v8;
32
33v8::Handle<v8::FunctionTemplate> InterpreterV8::fTemplateLocal;
34v8::Handle<v8::FunctionTemplate> InterpreterV8::fTemplateSky;
35v8::Handle<v8::FunctionTemplate> InterpreterV8::fTemplateEvent;
36//v8::Handle<v8::FunctionTemplate> InterpreterV8::fTemplateDatabase;
37
38
39// ==========================================================================
40// Some documentation
41// ==========================================================================
42//
43// Threads:
44// --------
45// In most cases Js* and other calls to native C++ code could be wrapped
46// with an Unlocker to allow possible other JavaScipt 'threads' to run
47// during that time. However, all of these calls should take much less than
48// the preemption time of 10ms, so it would just be a waste of tim.
49//
50// Termination:
51// ------------
52// Each thread running V8 code needs to be signalled individually for
53// termination. Therefor a list of V8 thread ids is created.
54//
55// If termination has already be signalled, no thread should start running
56// anymore (thy could, e.g., wait for their locking). So after locking
57// it has to be checked if the thread was terminated already. Note
58// that all calls to Terminate() must be locked to ensure that fThreadId
59// is correct when it is checked.
60//
61// The current thread id must be added to fThreadIds _before_ any
62// function is called after Locking and before execution is given
63// back to JavaScript, e.g. in script->Run(). So until the thread
64// is added to the list Terminate will not be executed. If Terminate
65// is then executed, it is ensured that the current thread is
66// already in the list. If terminate has been called before
67// the Locking, the check for the validiy of fThreadId ensures that
68// nothing is executed.
69//
70// Empty handles:
71// --------------
72// If exceution is terminated, V8 calls might return with empty handles,
73// e.g. Date::New(). Therefore, the returned handles of these calls have to
74// be checked in all placed to avoid that V8 will core dump.
75//
76// HandleScope:
77// ------------
78// A handle scope is a garbage collector and collects all handles created
79// until it goes out of scope. Handles which are not needed anymore are
80// then deleted. To return a handle from a HandleScope you need to use
81// Close(). E.g., String::AsciiValue does not create a new handle and
82// hence does not need a HandleScope. Any ::New will need a handle scope.
83// Forgetting the HandleScope could in principle fill your memory,
84// but everything is properly deleted by the global HandleScope at
85// script termination.
86//
87
88// ==========================================================================
89// Simple interface
90// ==========================================================================
91
92Handle<Value> InterpreterV8::FuncExit(const Arguments &)
93{
94 V8::TerminateExecution(fThreadId);
95
96 // we have to throw an excption to make sure that the
97 // calling thread does not go on executing until it
98 // has realized that it should terminate
99 return ThrowException(Null());
100}
101
102Handle<Value> InterpreterV8::FuncSleep(const Arguments& args)
103{
104 if (args.Length()==0)
105 {
106 // Theoretically, the CPU usage can be reduced by maybe a factor
107 // of four using a larger value, but this also means that the
108 // JavaScript is locked for a longer time.
109 const Unlocker unlock;
110 usleep(1000);
111 return Undefined();
112 }
113
114 if (args.Length()!=1)
115 return ThrowException(String::New("Number of arguments must be exactly 1."));
116
117 if (!args[0]->IsUint32())
118 return ThrowException(String::New("Argument 1 must be an uint32."));
119
120 // Using a Javascript function has the advantage that it is fully
121 // interruptable without the need of C++ code
122 const string code =
123 "(function(){"
124 "var t=new Date();"
125 "while ((new Date()-t)<"+to_string(args[0]->Int32Value())+") v8.sleep();"
126 "})();";
127
128 return ExecuteInternal(code);
129}
130
131void InterpreterV8::Thread(int &id, Persistent<Function> func, uint32_t ms)
132{
133 const Locker lock;
134
135 if (fThreadId<0)
136 {
137 id = -1;
138 return;
139 }
140
141 id = V8::GetCurrentThreadId();
142 fThreadIds.insert(id);
143
144 const HandleScope handle_scope;
145
146 func->CreationContext()->Enter();
147
148 TryCatch exception;
149
150 const bool rc = ms==0 || !ExecuteInternal("v8.sleep("+to_string(ms)+");").IsEmpty();
151 if (rc)
152 func->Call(func, 0, NULL);
153
154 func.Dispose();
155 fThreadIds.erase(id);
156
157 if (!HandleException(exception, "thread"))
158 V8::TerminateExecution(fThreadId);
159}
160
161Handle<Value> InterpreterV8::FuncThread(const Arguments& args)
162{
163 if (!args.IsConstructCall())
164 return ThrowException(String::New("Thread must be called as constructor."));
165
166 if (args.Length()!=2)
167 return ThrowException(String::New("Number of arguments must be two."));
168
169 if (!args[0]->IsUint32())
170 return ThrowException(String::New("Argument 0 not an uint32."));
171
172 if (!args[1]->IsFunction())
173 return ThrowException(String::New("Argument 1 not a function."));
174
175 //if (!args.IsConstructCall())
176 // return Constructor(args);
177
178 const HandleScope handle_scope;
179
180 Handle<Function> handle = Handle<Function>::Cast(args[1]);
181
182 Persistent<Function> func = Persistent<Function>::New(handle);
183
184 const uint32_t ms = args[0]->Uint32Value();
185
186 int id=-2;
187 fThreads.push_back(thread(bind(&InterpreterV8::Thread, this, ref(id), func, ms)));
188 {
189 // Allow the thread to lock, so we can get the thread id.
190 const Unlocker unlock;
191 while (id==-2)
192 usleep(1);
193 }
194
195 Handle<Object> self = args.This();
196
197 self->Set(String::New("id"), Integer::NewFromUnsigned(id), ReadOnly);
198 self->Set(String::New("kill"), FunctionTemplate::New(WrapKill)->GetFunction(), ReadOnly);
199
200 return Undefined();
201}
202
203Handle<Value> InterpreterV8::FuncKill(const Arguments& args)
204{
205 const uint32_t id = args.This()->Get(String::New("id"))->Uint32Value();
206
207 V8::TerminateExecution(id);
208
209 return Boolean::New(fThreadIds.erase(id));
210}
211
212Handle<Value> InterpreterV8::FuncSend(const Arguments& args)
213{
214 if (args.Length()==0)
215 return ThrowException(String::New("Number of arguments must be at least 1."));
216
217 if (!args[0]->IsString())
218 return ThrowException(String::New("Argument 1 must be a string."));
219
220 const String::AsciiValue str(args[0]);
221
222 string command = *str;
223
224 if (command.length()==0)
225 return ThrowException(String::New("Server name empty."));
226
227 if (args.Length()==0)
228 {
229 if (command.find_first_of('/')==string::npos)
230 command += "/";
231 }
232
233 // Escape all string arguments. All others can be kept as they are.
234 for (int i=1; i<args.Length(); i++)
235 {
236 string arg = *String::AsciiValue(args[i]);
237
238 // Escape string
239 if (args[i]->IsString())
240 {
241 boost::replace_all(arg, "\\", "\\\\");
242 boost::replace_all(arg, "'", "\\'");
243 boost::replace_all(arg, "\"", "\\\"");
244 }
245
246 command += " "+arg;
247 }
248
249 try
250 {
251 return Boolean::New(JsSend(command));
252 }
253 catch (const runtime_error &e)
254 {
255 return ThrowException(String::New(e.what()));
256 }
257}
258
259// ==========================================================================
260// State control
261// ==========================================================================
262
263Handle<Value> InterpreterV8::FuncWait(const Arguments& args)
264{
265 if (args.Length()!=2 && args.Length()!=3)
266 return ThrowException(String::New("Number of arguments must be 2 or 3."));
267
268 if (!args[0]->IsString())
269 return ThrowException(String::New("Argument 1 not a string."));
270
271 if (!args[1]->IsInt32() && !args[1]->IsString())
272 return ThrowException(String::New("Argument 2 not an int32 and not a string."));
273
274 if (args.Length()==3 && !args[2]->IsInt32())
275 return ThrowException(String::New("Argument 3 not an int32."));
276
277 // Using a Javascript function has the advantage that it is fully
278 // interruptable without the need of C++ code
279
280 const string index = args[1]->IsInt32() ? "s.index" : "s.name";
281 const bool timeout = args.Length()==3;
282 const string arg0 = *String::AsciiValue(args[0]);
283 const string state = args[1]->IsString() ? *String::AsciiValue(args[1]) : "";
284 const string arg1 = args[1]->IsString() ? ("\""+state+"\"") : to_string(args[1]->Int32Value());
285
286 if (arg0.find_first_of("\"'")!=string::npos)
287 return ThrowException(String::New("Server name must not contain quotation marks."));
288
289 if (args[1]->IsString())
290 if (state.find_first_of("\"'")!=string::npos)
291 return ThrowException(String::New("State name must not contain quotation marks."));
292
293 string code = "(function(name,state,ms)"
294 "{";
295 if (timeout)
296 code += "var t = new Date();";
297 code += "while (1)"
298 "{"
299 "var s = dim.state(name);"
300 "if(!s)throw new Error('Waitig for state "+arg1+" of server "+arg0+" failed.');"
301 "if(state=="+index+")return true;";
302 if (timeout)
303 code += "if((new Date()-t)>Math.abs(ms))break;";
304
305 code += "v8.sleep();"
306 "}";
307 if (timeout)
308 code += "if(ms>0)throw new Error('Waitig for state "+arg1+" of server "+arg0+" timed out.');";
309 code += "return false;"
310 "})('"+arg0+"',"+arg1;
311 if (timeout)
312 code += "," + to_string(args[2]->Int32Value());
313 code += ");";
314
315 return ExecuteInternal(code);
316}
317
318Handle<Value> InterpreterV8::FuncState(const Arguments& args)
319{
320 if (args.Length()!=1)
321 return ThrowException(String::New("Number of arguments must be exactly 1."));
322
323 if (!args[0]->IsString())
324 return ThrowException(String::New("Argument 1 must be a string."));
325
326 // Return state.name/state.index
327
328 const String::AsciiValue str(args[0]);
329
330 const State rc = JsState(*str);
331 if (rc.index<=-256)
332 return Undefined();
333
334 HandleScope handle_scope;
335
336 Handle<Object> obj = Object::New();
337
338 obj->Set(String::New("server"), String::New(*str), ReadOnly);
339 obj->Set(String::New("index"), Integer::New(rc.index), ReadOnly);
340 obj->Set(String::New("name"), String::New(rc.name.c_str()), ReadOnly);
341
342 const Local<Value> date = Date::New(rc.time.JavaDate());
343 if (rc.index>-256 && !date.IsEmpty())
344 obj->Set(String::New("time"), date);
345
346 return handle_scope.Close(obj);
347}
348
349Handle<Value> InterpreterV8::FuncNewState(const Arguments& args)
350{
351 if (args.Length()<1 || args.Length()>3)
352 return ThrowException(String::New("Number of arguments must be 1, 2 or 3."));
353
354 if (!args[0]->IsUint32())
355 return ThrowException(String::New("Argument 1 must be an uint32."));
356 if (args.Length()>1 && !args[1]->IsString())
357 return ThrowException(String::New("Argument 2 must be a string."));
358 if (args.Length()>2 && !args[2]->IsString())
359 return ThrowException(String::New("Argument 3 must be a string."));
360
361 const uint32_t index = args[0]->Int32Value();
362 const string name = *String::AsciiValue(args[1]);
363 const string comment = *String::AsciiValue(args[2]);
364
365 if (index<10 || index>255)
366 return ThrowException(String::New("State must be in the range [10, 255]."));
367
368 if (name.empty())
369 return ThrowException(String::New("State name must not be empty."));
370
371 if (name.find_first_of(':')!=string::npos || name.find_first_of('=')!=string::npos)
372 return ThrowException(String::New("State name must not contain : or =."));
373
374 struct Find : State
375 {
376 Find(int idx, const string &n) : State(idx, n) { }
377 bool operator()(const pair<int, string> &p) { return index==p.first || name==p.second; }
378 };
379
380 if (find_if(fStates.begin(), fStates.end(), Find(index, name))!=fStates.end())
381 {
382 const string what =
383 "State index ["+to_string(index)+"] or name ["+name+"] already defined.";
384
385 return ThrowException(String::New(what.c_str()));
386 }
387
388 return Boolean::New(JsNewState(index, name, comment));
389}
390
391Handle<Value> InterpreterV8::FuncSetState(const Arguments& args)
392{
393 if (args.Length()!=1)
394 return ThrowException(String::New("Number of arguments must be exactly 1."));
395
396 if (!args[0]->IsUint32() && !args[0]->IsString())
397 return ThrowException(String::New("Argument must be an unint32 or a string."));
398
399 int index = -2;
400 if (args[0]->IsUint32())
401 {
402 index = args[0]->Int32Value();
403 }
404 else
405 {
406 const string name = *String::AsciiValue(args[0]);
407 index = JsGetState(name);
408 if (index==-2)
409 return ThrowException(String::New(("State '"+name+"' not found.").c_str()));
410 }
411
412 if (index<10 || index>255)
413 return ThrowException(String::New("State must be in the range [10, 255]."));
414
415 return Boolean::New(JsSetState(index));
416}
417
418Handle<Value> InterpreterV8::FuncGetState(const Arguments& args)
419{
420 if (args.Length()>0)
421 return ThrowException(String::New("getState must not take arguments."));
422
423 const State state = JsGetCurrentState();
424
425 HandleScope handle_scope;
426
427 Handle<Object> rc = Object::New();
428 if (rc.IsEmpty())
429 return Undefined();
430
431 rc->Set(String::New("index"), Integer::New(state.index), ReadOnly);
432 rc->Set(String::New("name"), String::New(state.name.c_str()), ReadOnly);
433 rc->Set(String::New("description"), String::New(state.comment.c_str()), ReadOnly);
434
435 return handle_scope.Close(rc);
436}
437
438Handle<Value> InterpreterV8::FuncGetStates(const Arguments& args)
439{
440 if (args.Length()>1)
441 return ThrowException(String::New("getStates must not take more than one arguments."));
442
443 if (args.Length()==1 && !args[0]->IsString())
444 return ThrowException(String::New("Argument must be an string."));
445
446 const string server = args.Length()==1 ? *String::AsciiValue(args[0]) : "DIM_CONTROL";
447
448 const vector<State> states = JsGetStates(server);
449
450 HandleScope handle_scope;
451
452 Handle<Object> list = Object::New();
453 if (list.IsEmpty())
454 return Undefined();
455
456 for (auto it=states.begin(); it!=states.end(); it++)
457 {
458 Handle<Value> entry = StringObject::New(String::New(it->name.c_str()));
459 if (entry.IsEmpty())
460 return Undefined();
461
462 StringObject::Cast(*entry)->Set(String::New("description"), String::New(it->comment.c_str()), ReadOnly);
463 list->Set(Integer::New(it->index), entry, ReadOnly);
464 }
465
466 return handle_scope.Close(list);
467}
468
469// ==========================================================================
470// Internal functions
471// ==========================================================================
472
473
474// The callback that is invoked by v8 whenever the JavaScript 'print'
475// function is called. Prints its arguments on stdout separated by
476// spaces and ending with a newline.
477Handle<Value> InterpreterV8::FuncLog(const Arguments& args)
478{
479 for (int i=0; i<args.Length(); i++)
480 {
481 const String::AsciiValue str(args[i]);
482 if (*str)
483 JsPrint(*str);
484 }
485 return Undefined();
486}
487
488Handle<Value> InterpreterV8::FuncAlarm(const Arguments& args)
489{
490 for (int i=0; i<args.Length(); i++)
491 {
492 const String::AsciiValue str(args[i]);
493 if (*str)
494 JsAlarm(*str);
495 }
496
497 if (args.Length()==0)
498 JsAlarm();
499
500 return Undefined();
501}
502
503Handle<Value> InterpreterV8::FuncOut(const Arguments& args)
504{
505 for (int i=0; i<args.Length(); i++)
506 {
507 const String::AsciiValue str(args[i]);
508 if (*str)
509 JsOut(*str);
510 }
511 return Undefined();
512}
513
514// The callback that is invoked by v8 whenever the JavaScript 'load'
515// function is called. Loads, compiles and executes its argument
516// JavaScript file.
517Handle<Value> InterpreterV8::FuncInclude(const Arguments& args)
518{
519 for (int i=0; i<args.Length(); i++)
520 {
521 const String::AsciiValue file(args[i]);
522 if (*file == NULL)
523 return ThrowException(String::New("File name missing"));
524
525 if (!ExecuteFile(*file))
526 {
527 V8::TerminateExecution(fThreadId);
528 return ThrowException(Null());
529 }
530 }
531
532 return Boolean::New(true);
533}
534
535Handle<Value> InterpreterV8::FuncFile(const Arguments& args)
536{
537 if (args.Length()!=1 && args.Length()!=2)
538 return ThrowException(String::New("Number of arguments must be one or two."));
539
540 const String::AsciiValue file(args[0]);
541 if (*file == NULL)
542 return ThrowException(String::New("File name missing"));
543
544 if (args.Length()==2 && !args[1]->IsString())
545 return ThrowException(String::New("Second argument must be a string."));
546
547 const string delim = args.Length()==2 ? *String::AsciiValue(args[1]) : "";
548
549 if (args.Length()==2 && delim.size()!=1)
550 return ThrowException(String::New("Second argument must be a string of length 1."));
551
552 HandleScope handle_scope;
553
554 izstream fin(*file);
555 if (!fin)
556 return ThrowException(String::New(errno!=0?strerror(errno):"Insufficient memory for decompression"));
557
558 if (args.Length()==1)
559 {
560 string buffer;
561 if (!getline(fin, buffer, '\0'))
562 return ThrowException(String::New(strerror(errno)));
563
564 Handle<Value> str = StringObject::New(String::New(buffer.c_str()));
565 StringObject::Cast(*str)->Set(String::New("name"), String::New(*file));
566 return handle_scope.Close(str);
567 }
568
569 Handle<Array> arr = Array::New();
570 if (arr.IsEmpty())
571 return Undefined();
572
573 int i=0;
574 string buffer;
575 while (getline(fin, buffer, delim[0]))
576 arr->Set(i++, String::New(buffer.c_str()));
577
578 if ((fin.fail() && !fin.eof()) || fin.bad())
579 return ThrowException(String::New(strerror(errno)));
580
581 arr->Set(String::New("name"), String::New(*file));
582 arr->Set(String::New("delim"), String::New(delim.c_str(), 1));
583
584 return handle_scope.Close(arr);
585}
586
587// ==========================================================================
588// Database
589// ==========================================================================
590
591Handle<Value> InterpreterV8::FuncDbClose(const Arguments &args)
592{
593 void *ptr = External::Unwrap(args.This()->GetInternalField(0));
594 if (!ptr)
595 return Boolean::New(false);
596
597#ifdef HAVE_SQL
598 Database *db = reinterpret_cast<Database*>(ptr);
599 auto it = find(fDatabases.begin(), fDatabases.end(), db);
600 fDatabases.erase(it);
601 delete db;
602#endif
603
604 HandleScope handle_scope;
605
606 args.This()->SetInternalField(0, External::New(0));
607
608 return handle_scope.Close(Boolean::New(true));
609}
610
611Handle<Value> InterpreterV8::FuncDbQuery(const Arguments &args)
612{
613 if (args.Length()==0)
614 return ThrowException(String::New("Arguments expected."));
615
616 void *ptr = External::Unwrap(args.This()->GetInternalField(0));
617 if (!ptr)
618 return Undefined();
619
620 string query;
621 for (int i=0; i<args.Length(); i++)
622 query += string(" ") + *String::AsciiValue(args[i]);
623 query.erase(0, 1);
624
625#ifdef HAVE_SQL
626 try
627 {
628 HandleScope handle_scope;
629
630 Database *db = reinterpret_cast<Database*>(ptr);
631
632 const mysqlpp::StoreQueryResult res = db->query(query).store();
633
634 Handle<Array> ret = Array::New();
635 if (ret.IsEmpty())
636 return Undefined();
637
638 ret->Set(String::New("table"), String::New(res.table()), ReadOnly);
639 ret->Set(String::New("query"), String::New(query.c_str()), ReadOnly);
640
641 Handle<Array> cols = Array::New();
642 if (cols.IsEmpty())
643 return Undefined();
644
645 int irow=0;
646 for (vector<mysqlpp::Row>::const_iterator it=res.begin(); it<res.end(); it++)
647 {
648 Handle<Object> row = Object::New();
649 if (row.IsEmpty())
650 return Undefined();
651
652 const mysqlpp::FieldNames *list = it->field_list().list;
653
654 for (size_t i=0; i<it->size(); i++)
655 {
656 const Handle<Value> name = String::New((*list)[i].c_str());
657 if (irow==0)
658 cols->Set(i, name);
659
660 if ((*it)[i].is_null())
661 {
662 row->Set(name, Undefined(), ReadOnly);
663 continue;
664 }
665
666 const string sql_type = (*it)[i].type().sql_name();
667
668 const bool uns = sql_type.find("UNSIGNED")==string::npos;
669
670 if (sql_type.find("BIGINT")!=string::npos)
671 {
672 if (uns)
673 {
674 const uint64_t val = (uint64_t)(*it)[i];
675 if (val>UINT32_MAX)
676 row->Set(name, Number::New(val), ReadOnly);
677 else
678 row->Set(name, Integer::NewFromUnsigned(val), ReadOnly);
679 }
680 else
681 {
682 const int64_t val = (int64_t)(*it)[i];
683 if (val<INT32_MIN || val>INT32_MAX)
684 row->Set(name, Number::New(val), ReadOnly);
685 else
686 row->Set(name, Integer::NewFromUnsigned(val), ReadOnly);
687 }
688 continue;
689 }
690
691 // 32 bit
692 if (sql_type.find("INT")!=string::npos)
693 {
694 if (uns)
695 row->Set(name, Integer::NewFromUnsigned((uint32_t)(*it)[i]), ReadOnly);
696 else
697 row->Set(name, Integer::New((int32_t)(*it)[i]), ReadOnly);
698 continue;
699 }
700
701 if (sql_type.find("BOOL")!=string::npos )
702 {
703 row->Set(name, Boolean::New((bool)(*it)[i]), ReadOnly);
704 continue;
705 }
706
707 if (sql_type.find("FLOAT")!=string::npos)
708 {
709 ostringstream val;
710 val << setprecision(7) << (float)(*it)[i];
711 row->Set(name, Number::New(stod(val.str())), ReadOnly);
712 continue;
713
714 }
715 if (sql_type.find("DOUBLE")!=string::npos)
716 {
717 row->Set(name, Number::New((double)(*it)[i]), ReadOnly);
718 continue;
719 }
720
721 if (sql_type.find("CHAR")!=string::npos ||
722 sql_type.find("TEXT")!=string::npos)
723 {
724 row->Set(name, String::New((const char*)(*it)[i]), ReadOnly);
725 continue;
726 }
727
728 time_t date = 0;
729 if (sql_type.find("TIMESTAMP")!=string::npos)
730 date = mysqlpp::Time((*it)[i]);
731
732 if (sql_type.find("DATETIME")!=string::npos)
733 date = mysqlpp::DateTime((*it)[i]);
734
735 if (sql_type.find(" DATE ")!=string::npos)
736 date = mysqlpp::Date((*it)[i]);
737
738 if (date>0)
739 {
740 // It is important to catch the exception thrown
741 // by Date::New in case of thread termination!
742 const Local<Value> val = Date::New(date*1000);
743 if (val.IsEmpty())
744 return Undefined();
745
746 row->Set(name, val, ReadOnly);
747 }
748 }
749
750 ret->Set(irow++, row);
751 }
752
753 if (irow>0)
754 ret->Set(String::New("cols"), cols, ReadOnly);
755
756 return handle_scope.Close(ret);
757 }
758 catch (const exception &e)
759 {
760 return ThrowException(String::New(e.what()));
761 }
762#endif
763}
764
765Handle<Value> InterpreterV8::FuncDatabase(const Arguments &args)
766{
767 if (!args.IsConstructCall())
768 return ThrowException(String::New("Database must be called as constructor."));
769
770 if (args.Length()!=1)
771 return ThrowException(String::New("Number of arguments must be 1."));
772
773 if (!args[0]->IsString())
774 return ThrowException(String::New("Argument 1 not a string."));
775
776#ifdef HAVE_SQL
777 try
778 {
779 HandleScope handle_scope;
780
781 //if (!args.IsConstructCall())
782 // return Constructor(fTemplateDatabase, args);
783
784 Database *db = new Database(*String::AsciiValue(args[0]));
785 fDatabases.push_back(db);
786
787 Handle<Object> self = args.This();
788 self->Set(String::New("user"), String::New(db->user.c_str()), ReadOnly);
789 self->Set(String::New("server"), String::New(db->server.c_str()), ReadOnly);
790 self->Set(String::New("database"), String::New(db->db.c_str()), ReadOnly);
791 self->Set(String::New("port"), db->port==0?Undefined():Integer::NewFromUnsigned(db->port), ReadOnly);
792 self->Set(String::New("query"), FunctionTemplate::New(WrapDbQuery)->GetFunction(), ReadOnly);
793 self->Set(String::New("close"), FunctionTemplate::New(WrapDbClose)->GetFunction(), ReadOnly);
794 self->SetInternalField(0, External::New(db));
795
796 return handle_scope.Close(self);
797 }
798 catch (const exception &e)
799 {
800 return ThrowException(String::New(e.what()));
801 }
802#endif
803}
804
805// ==========================================================================
806// Services
807// ==========================================================================
808
809Handle<Value> InterpreterV8::Convert(char type, const char* &ptr)
810{
811 // Dim values are always unsigned per (FACT++) definition
812 switch (type)
813 {
814 case 'F':
815 {
816 // Remove the "imprecision" effect coming from casting a float to
817 // a double and then showing it with double precision
818 ostringstream val;
819 val << setprecision(7) << *reinterpret_cast<const float*>(ptr);
820 ptr += 4;
821 return Number::New(stod(val.str()));
822 }
823 case 'D': { Handle<Value> v=Number::New(*reinterpret_cast<const double*>(ptr)); ptr+=8; return v; }
824 case 'I':
825 case 'L': { Handle<Value> v=Integer::NewFromUnsigned(*reinterpret_cast<const uint32_t*>(ptr)); ptr += 4; return v; }
826 case 'X':
827 {
828 const uint64_t val = *reinterpret_cast<const uint64_t*>(ptr);
829 ptr += 8;
830 if (val>UINT32_MAX)
831 return Number::New(val);
832 return Integer::NewFromUnsigned(val);
833 }
834 case 'S': { Handle<Value> v=Integer::NewFromUnsigned(*reinterpret_cast<const uint16_t*>(ptr)); ptr += 2; return v; }
835 case 'C': { Handle<Value> v=Integer::NewFromUnsigned((uint16_t)*reinterpret_cast<const uint8_t*>(ptr)); ptr += 1; return v; }
836 }
837 return Undefined();
838}
839
840Handle<Value> InterpreterV8::FuncClose(const Arguments &args)
841{
842 HandleScope handle_scope;
843
844 //const void *ptr = Local<External>::Cast(args.Holder()->GetInternalField(0))->Value();
845
846 const String::AsciiValue str(args.This()->Get(String::New("name")));
847
848 const auto it = fReverseMap.find(*str);
849 if (it!=fReverseMap.end())
850 {
851 it->second.Dispose();
852 fReverseMap.erase(it);
853 }
854
855 args.This()->Set(String::New("isOpen"), Boolean::New(false), ReadOnly);
856
857 return handle_scope.Close(Boolean::New(JsUnsubscribe(*str)));
858}
859
860Handle<Value> InterpreterV8::ConvertEvent(const EventImp *evt, uint64_t counter, const char *str)
861{
862 const vector<Description> vec = JsDescription(str);
863
864 Handle<Object> ret = fTemplateEvent->GetFunction()->NewInstance();//Object::New();
865 if (ret.IsEmpty())
866 return Undefined();
867
868 const Local<Value> date = Date::New(evt->GetJavaDate());
869 if (date.IsEmpty())
870 return Undefined();
871
872 ret->Set(String::New("name"), String::New(str), ReadOnly);
873 ret->Set(String::New("format"), String::New(evt->GetFormat().c_str()), ReadOnly);
874 ret->Set(String::New("qos"), Integer::New(evt->GetQoS()), ReadOnly);
875 ret->Set(String::New("size"), Integer::New(evt->GetSize()), ReadOnly);
876 ret->Set(String::New("counter"), Integer::New(counter), ReadOnly);
877 if (evt->GetJavaDate()>0)
878 ret->Set(String::New("time"), date, ReadOnly);
879
880 // If names are available data will also be provided as an
881 // object. If an empty event was received, but names are available,
882 // the object will be empty. Otherwise 'obj' will be undefined.
883 // obj===undefined: no data received
884 // obj!==undefined, length==0: names for event available
885 // obj!==undefined, obj.length>0: names available, data received
886 Handle<Object> named = Object::New();
887 if (vec.size()>0)
888 ret->Set(String::New("obj"), named, ReadOnly);
889
890 // If no event was received (usually a disconnection event in
891 // the context of FACT++), no data is returned
892 if (evt->IsEmpty())
893 return ret;
894
895 // If valid data was received, but the size was zero, then
896 // null is returned as data
897 // data===undefined: no data received
898 // data===null: event received, but no data
899 // data.length>0: event received, contains data
900 if (evt->GetSize()==0 || evt->GetFormat().empty())
901 {
902 ret->Set(String::New("data"), Null(), ReadOnly);
903 return ret;
904 }
905
906 typedef boost::char_separator<char> separator;
907 const boost::tokenizer<separator> tokenizer(evt->GetFormat(), separator(";:"));
908
909 const vector<string> tok(tokenizer.begin(), tokenizer.end());
910
911 Handle<Object> arr = tok.size()>1 ? Array::New() : ret;
912 if (arr.IsEmpty())
913 return Undefined();
914
915 const char *ptr = evt->GetText();
916 const char *end = evt->GetText()+evt->GetSize();
917
918 try
919 {
920 size_t pos = 1;
921 for (auto it=tok.begin(); it<tok.end() && ptr<end; it++, pos++)
922 {
923 char type = (*it)[0];
924 it++;
925
926 string name = pos<vec.size() ? vec[pos].name : "";
927 if (tok.size()==1)
928 name = "data";
929
930 // Get element size
931 uint32_t sz = 1;
932 switch (type)
933 {
934 case 'X':
935 case 'D': sz = 8; break;
936 case 'F':
937 case 'I':
938 case 'L': sz = 4; break;
939 case 'S': sz = 2; break;
940 case 'C': sz = 1; break;
941 }
942
943 // Check if no number is attached if the size of the
944 // received data is consistent with the format string
945 if (it==tok.end() && (end-ptr)%sz>0)
946 return Exception::Error(String::New(("Number of received bytes ["+to_string(evt->GetSize())+"] does not match format ["+evt->GetFormat()+"]").c_str()));
947
948 // Check if format has a number attached.
949 // If no number is attached calculate number of elements
950 const uint32_t cnt = it==tok.end() ? (end-ptr)/sz : stoi(it->c_str());
951
952 // is_str: Array of type C but unknown size (String)
953 // is_one: Array of known size, but size is 1 (I:1)
954 const bool is_str = type=='C' && it==tok.end();
955 const bool is_one = cnt==1 && it!=tok.end();
956
957 Handle<Value> v;
958
959 if (is_str)
960 v = String::New(ptr);
961 if (is_one)
962 v = Convert(type, ptr);
963
964 // Array of known (I:5) or unknown size (I), but no string
965 if (!is_str && !is_one)
966 {
967 Handle<Object> a = Array::New(cnt);
968 if (a.IsEmpty())
969 return Undefined();
970
971 for (uint32_t i=0; i<cnt; i++)
972 a->Set(i, Convert(type, ptr));
973
974 v = a;
975 }
976
977 if (tok.size()>1)
978 arr->Set(pos-1, v);
979 else
980 ret->Set(String::New("data"), v, ReadOnly);
981
982 if (!name.empty())
983 {
984 const Handle<String> n = String::New(name.c_str());
985 named->Set(n, v);
986 }
987 }
988
989 if (tok.size()>1)
990 ret->Set(String::New("data"), arr, ReadOnly);
991
992 return ret;
993 }
994 catch (...)
995 {
996 return Exception::Error(String::New(("Format string conversion '"+evt->GetFormat()+"' failed.").c_str()));
997 }
998}
999/*
1000Handle<Value> InterpreterV8::FuncGetData(const Arguments &args)
1001{
1002 HandleScope handle_scope;
1003
1004 const String::AsciiValue str(args.Holder()->Get(String::New("name")));
1005
1006 const pair<uint64_t, EventImp *> p = JsGetEvent(*str);
1007
1008 const EventImp *evt = p.second;
1009 if (!evt)
1010 return Undefined();
1011
1012 //if (counter==cnt)
1013 // return info.Holder();//Holder()->Get(String::New("data"));
1014
1015 Handle<Value> ret = ConvertEvent(evt, p.first, *str);
1016 return ret->IsNativeError() ? ThrowException(ret) : handle_scope.Close(ret);
1017}
1018*/
1019Handle<Value> InterpreterV8::FuncGetData(const Arguments &args)
1020{
1021 if (args.Length()>2)
1022 return ThrowException(String::New("Number of arguments must not be greater than 2."));
1023
1024 if (args.Length()>=1 && !args[0]->IsInt32() && !args[0]->IsNull())
1025 return ThrowException(String::New("Argument 1 not an uint32."));
1026
1027 if (args.Length()==2 && !args[1]->IsBoolean())
1028 return ThrowException(String::New("Argument 2 not a boolean."));
1029
1030 // Using a Javascript function has the advantage that it is fully
1031 // interruptable without the need of C++ code
1032 const bool null = args.Length()>=1 && args[0]->IsNull();
1033 const int32_t timeout = args.Length()>=1 ? args[0]->Int32Value() : 0;
1034 const bool named = args.Length()<2 || args[1]->BooleanValue();
1035
1036 HandleScope handle_scope;
1037
1038 const Handle<Script> sleep = Script::Compile(String::New("v8.sleep();"), String::New("internal"));
1039 if (sleep.IsEmpty())
1040 return Undefined();
1041
1042 //const Handle<String> data = String::New("data");
1043 const Handle<String> object = String::New("obj");
1044
1045 const String::AsciiValue name(args.Holder()->Get(String::New("name")));
1046
1047 TryCatch exception;
1048
1049 Time t;
1050 while (!exception.HasCaught())
1051 {
1052 const pair<uint64_t, EventImp *> p = JsGetEvent(*name);
1053
1054 const EventImp *evt = p.second;
1055 if (evt)
1056 {
1057 const Handle<Value> val = ConvertEvent(evt, p.first, *name);
1058 if (val->IsNativeError())
1059 return ThrowException(val);
1060
1061 // Protect against the return of an exception
1062 if (!val.IsEmpty() && val->IsObject())
1063 {
1064 if (!named)
1065 return handle_scope.Close(val);
1066
1067 const Handle<Object> event = val->ToObject();
1068 const Handle<Value> obj = event->Get(object);
1069
1070 if (!obj.IsEmpty() && obj->IsObject())
1071 {
1072 // Has names and data was received?
1073 if (obj->ToObject()->GetOwnPropertyNames()->Length()>0)
1074 return handle_scope.Close(val);
1075 }
1076 }
1077 }
1078
1079 if (args.Length()==0)
1080 break;
1081
1082 if (!null && Time()-t>=boost::posix_time::milliseconds(abs(timeout)))
1083 break;
1084
1085 // We cannot sleep directly because we have to give control back to
1086 // JavaScript ever now and then. This also allows us to catch
1087 // exceptions, either from the preemption or ConvertEvent
1088 sleep->Run();
1089 }
1090
1091 if (exception.HasCaught())
1092 return exception.ReThrow();
1093
1094 if (timeout<0)
1095 return Undefined();
1096
1097 const string str = "Waiting for a valid event of "+string(*name)+" timed out.";
1098 return ThrowException(String::New(str.c_str()));
1099}
1100
1101
1102// This is a callback from the RemoteControl piping event handling
1103// to the java script ---> in test phase!
1104void InterpreterV8::JsHandleEvent(const EventImp &evt, uint64_t cnt, const string &service)
1105{
1106 const Locker locker;
1107
1108 if (fThreadId<0)
1109 return;
1110
1111 const auto it = fReverseMap.find(service);
1112 if (it==fReverseMap.end())
1113 return;
1114
1115 const HandleScope handle_scope;
1116
1117 Handle<Object> obj = it->second;
1118
1119 obj->CreationContext()->Enter();
1120
1121 const Handle<String> onchange = String::New("onchange");
1122 if (!obj->Has(onchange))
1123 return;
1124
1125 const Handle<Value> val = obj->Get(onchange);
1126 if (!val->IsFunction())
1127 return;
1128
1129 // -------------------------------------------------------------------
1130
1131 TryCatch exception;
1132
1133 const int id = V8::GetCurrentThreadId();
1134 fThreadIds.insert(id);
1135
1136 Handle<Value> ret = ConvertEvent(&evt, cnt, service.c_str());
1137 if (ret->IsObject())
1138 Handle<Function>::Cast(val)->Call(obj, 1, &ret);
1139
1140 fThreadIds.erase(id);
1141
1142 if (!HandleException(exception, "Service.onchange"))
1143 V8::TerminateExecution(fThreadId);
1144
1145 if (ret->IsNativeError())
1146 {
1147 JsException(service+".onchange callback - "+*String::AsciiValue(ret));
1148 V8::TerminateExecution(fThreadId);
1149 }
1150}
1151
1152Handle<Value> InterpreterV8::OnChangeSet(Local<String> prop, Local<Value> value, const AccessorInfo &)
1153{
1154 // Returns the value if the setter intercepts the request. Otherwise, returns an empty handle.
1155 const string server = *String::AsciiValue(prop);
1156 auto it = fStateCallbacks.find(server);
1157
1158 if (it!=fStateCallbacks.end())
1159 {
1160 it->second.Dispose();
1161 fStateCallbacks.erase(it);
1162 }
1163
1164 if (value->IsFunction())
1165 fStateCallbacks[server] = Persistent<Object>::New(value->ToObject());
1166
1167 return Handle<Value>();
1168}
1169
1170
1171void InterpreterV8::JsHandleState(const std::string &server, const State &state)
1172{
1173 const Locker locker;
1174
1175 if (fThreadId<0)
1176 return;
1177
1178 auto it = fStateCallbacks.find(server);
1179 if (it==fStateCallbacks.end())
1180 {
1181 it = fStateCallbacks.find("*");
1182 if (it==fStateCallbacks.end())
1183 return;
1184 }
1185
1186 const HandleScope handle_scope;
1187
1188 it->second->CreationContext()->Enter();
1189
1190 // -------------------------------------------------------------------
1191
1192 Handle<ObjectTemplate> obj = ObjectTemplate::New();
1193 obj->Set(String::New("server"), String::New(server.c_str()), ReadOnly);
1194
1195 if (state.index>-256)
1196 {
1197 obj->Set(String::New("index"), Integer::New(state.index), ReadOnly);
1198 obj->Set(String::New("name"), String::New(state.name.c_str()), ReadOnly);
1199 obj->Set(String::New("comment"), String::New(state.comment.c_str()), ReadOnly);
1200 const Local<Value> date = Date::New(state.time.JavaDate());
1201 if (!date.IsEmpty())
1202 obj->Set(String::New("time"), date);
1203 }
1204
1205 // -------------------------------------------------------------------
1206
1207 TryCatch exception;
1208
1209 const int id = V8::GetCurrentThreadId();
1210 fThreadIds.insert(id);
1211
1212 Handle<Value> args[] = { obj->NewInstance() };
1213 Handle<Function> fun = Handle<Function>(Function::Cast(*it->second));
1214 fun->Call(fun, 1, args);
1215
1216 fThreadIds.erase(id);
1217
1218 if (!HandleException(exception, "dim.onchange"))
1219 V8::TerminateExecution(fThreadId);
1220}
1221
1222/*
1223void Cleanup( Persistent<Value> object, void *parameter )
1224{
1225 cout << "======================> RemoveMyObj()" << endl;
1226}*/
1227
1228Handle<Value> InterpreterV8::FuncSubscription(const Arguments &args)
1229{
1230 if (args.Length()!=1 && args.Length()!=2)
1231 return ThrowException(String::New("Number of arguments must be one or two."));
1232
1233 if (!args[0]->IsString())
1234 return ThrowException(String::New("Argument 1 must be a string."));
1235
1236 if (args.Length()==2 && !args[1]->IsFunction())
1237 return ThrowException(String::New("Argument 2 must be a function."));
1238
1239 const String::AsciiValue str(args[0]);
1240
1241 if (!args.IsConstructCall())
1242 {
1243 const auto it = fReverseMap.find(*str);
1244 if (it!=fReverseMap.end())
1245 return it->second;
1246
1247 return Undefined();
1248 }
1249
1250 const HandleScope handle_scope;
1251
1252 Handle<Object> self = args.This();
1253 self->Set(String::New("get"), FunctionTemplate::New(WrapGetData)->GetFunction(), ReadOnly);
1254 self->Set(String::New("close"), FunctionTemplate::New(WrapClose)->GetFunction(), ReadOnly);
1255 self->Set(String::New("name"), String::New(*str), ReadOnly);
1256 self->Set(String::New("isOpen"), Boolean::New(true));
1257
1258 if (args.Length()==2)
1259 self->Set(String::New("onchange"), args[1]);
1260
1261 fReverseMap[*str] = Persistent<Object>::New(self);
1262
1263 void *ptr = JsSubscribe(*str);
1264 if (ptr==0)
1265 return ThrowException(String::New(("Subscription to '"+string(*str)+"' already exists.").c_str()));
1266
1267 self->SetInternalField(0, External::New(ptr));
1268
1269 return Undefined();
1270
1271 // Persistent<Object> p = Persistent<Object>::New(obj->NewInstance());
1272 // obj.MakeWeak((void*)1, Cleanup);
1273 // return obj;
1274}
1275
1276// ==========================================================================
1277// Astrometry
1278// ==========================================================================
1279#ifdef HAVE_NOVA
1280
1281double InterpreterV8::GetDataMember(const Arguments &args, const char *name)
1282{
1283 return args.This()->Get(String::New(name))->NumberValue();
1284}
1285
1286Handle<Value> InterpreterV8::CalcDist(const Arguments &args, const bool local)
1287{
1288 if (args.Length()!=2)
1289 return ThrowException(String::New("dist must not be called with two arguments."));
1290
1291 if (!args[0]->IsObject() || !args[1]->IsObject())
1292 return ThrowException(String::New("at least one argument not an object."));
1293
1294 HandleScope handle_scope;
1295
1296 Handle<Object> obj[2] =
1297 {
1298 Handle<Object>::Cast(args[0]),
1299 Handle<Object>::Cast(args[1])
1300 };
1301
1302 const Handle<String> s_theta = String::New(local?"zd":"dec"); // was: zd
1303 const Handle<String> s_phi = String::New(local?"az":"ra"); // was: az
1304
1305 const double conv_t = M_PI/180;
1306 const double conv_p = local ? -M_PI/180 : M_PI/12;
1307 const double offset = local ? 0 : M_PI;
1308
1309 const double theta0 = offset - obj[0]->Get(s_theta)->NumberValue() * conv_t;
1310 const double phi0 = obj[0]->Get(s_phi )->NumberValue() * conv_p;
1311 const double theta1 = offset - obj[1]->Get(s_theta)->NumberValue() * conv_t;
1312 const double phi1 = obj[1]->Get(s_phi )->NumberValue() * conv_p;
1313
1314 if (!finite(theta0) || !finite(theta1) || !finite(phi0) || !finite(phi1))
1315 return ThrowException(String::New("some values not valid or not finite."));
1316
1317 /*
1318 const double x0 = sin(zd0) * cos(az0); // az0 -= az0
1319 const double y0 = sin(zd0) * sin(az0); // az0 -= az0
1320 const double z0 = cos(zd0);
1321
1322 const double x1 = sin(zd1) * cos(az1); // az1 -= az0
1323 const double y1 = sin(zd1) * sin(az1); // az1 -= az0
1324 const double z1 = cos(zd1);
1325
1326 const double res = acos(x0*x1 + y0*y1 + z0*z1) * 180/M_PI;
1327 */
1328
1329 // cos(az1-az0) = cos(az1)*cos(az0) + sin(az1)*sin(az0)
1330
1331 const double x = sin(theta0) * sin(theta1) * cos(phi1-phi0);
1332 const double y = cos(theta0) * cos(theta1);
1333
1334 const double res = acos(x + y) * 180/M_PI;
1335
1336 return handle_scope.Close(Number::New(res));
1337}
1338
1339Handle<Value> InterpreterV8::LocalDist(const Arguments &args)
1340{
1341 return CalcDist(args, true);
1342}
1343
1344Handle<Value> InterpreterV8::SkyDist(const Arguments &args)
1345{
1346 return CalcDist(args, false);
1347}
1348
1349Handle<Value> InterpreterV8::MoonDisk(const Arguments &args)
1350{
1351 if (args.Length()>1)
1352 return ThrowException(String::New("disk must not be called with more than one argument."));
1353
1354 const uint64_t v = uint64_t(args[0]->NumberValue());
1355 const Time utc = args.Length()==0 ? Time() : Time(v/1000, v%1000);
1356
1357 return Number::New(ln_get_lunar_disk(utc.JD()));
1358}
1359
1360Handle<Value> InterpreterV8::LocalToSky(const Arguments &args)
1361{
1362 if (args.Length()>1)
1363 return ThrowException(String::New("toSky must not be called with more than one argument."));
1364
1365 if (args.Length()==1 && !args[0]->IsDate())
1366 return ThrowException(String::New("Argument must be a Date"));
1367
1368 ln_hrz_posn hrz;
1369 hrz.alt = 90-GetDataMember(args, "zd");
1370 hrz.az = GetDataMember(args, "az");
1371
1372 if (!finite(hrz.alt) || !finite(hrz.az))
1373 return ThrowException(String::New("zd and az must be finite."));
1374
1375 HandleScope handle_scope;
1376
1377 const Local<Value> date =
1378 args.Length()==0 ? Date::New(Time().JavaDate()) : args[0];
1379 if (date.IsEmpty())
1380 return Undefined();
1381
1382 const uint64_t v = uint64_t(date->NumberValue());
1383 const Time utc(v/1000, v%1000);
1384
1385 ln_lnlat_posn obs;
1386 obs.lng = -(17.+53./60+26.525/3600);
1387 obs.lat = 28.+45./60+42.462/3600;
1388
1389 ln_equ_posn equ;
1390 ln_get_equ_from_hrz(&hrz, &obs, utc.JD(), &equ);
1391
1392 // -----------------------------
1393
1394 Handle<Value> arg[] = { Number::New(equ.ra/15), Number::New(equ.dec), date };
1395 return handle_scope.Close(fTemplateSky->GetFunction()->NewInstance(3, arg));
1396}
1397
1398Handle<Value> InterpreterV8::SkyToLocal(const Arguments &args)
1399{
1400 if (args.Length()>1)
1401 return ThrowException(String::New("toLocal must not be called with more than one argument."));
1402
1403 if (args.Length()==1 && !args[0]->IsDate())
1404 return ThrowException(String::New("Argument must be a Date"));
1405
1406 ln_equ_posn equ;
1407 equ.ra = GetDataMember(args, "ra")*15;
1408 equ.dec = GetDataMember(args, "dec");
1409
1410 if (!finite(equ.ra) || !finite(equ.dec))
1411 return ThrowException(String::New("Ra and dec must be finite."));
1412
1413 HandleScope handle_scope;
1414
1415 const Local<Value> date =
1416 args.Length()==0 ? Date::New(Time().JavaDate()) : args[0];
1417 if (date.IsEmpty())
1418 return Undefined();
1419
1420 const uint64_t v = uint64_t(date->NumberValue());
1421 const Time utc(v/1000, v%1000);
1422
1423 ln_lnlat_posn obs;
1424 obs.lng = -(17.+53./60+26.525/3600);
1425 obs.lat = 28.+45./60+42.462/3600;
1426
1427 ln_hrz_posn hrz;
1428 ln_get_hrz_from_equ(&equ, &obs, utc.JD(), &hrz);
1429
1430 Handle<Value> arg[] = { Number::New(90-hrz.alt), Number::New(hrz.az), date };
1431 return handle_scope.Close(fTemplateLocal->GetFunction()->NewInstance(3, arg));
1432}
1433
1434Handle<Value> InterpreterV8::MoonToLocal(const Arguments &args)
1435{
1436 if (args.Length()>0)
1437 return ThrowException(String::New("toLocal must not be called with arguments."));
1438
1439 ln_equ_posn equ;
1440 equ.ra = GetDataMember(args, "ra")*15;
1441 equ.dec = GetDataMember(args, "dec");
1442
1443 if (!finite(equ.ra) || !finite(equ.dec))
1444 return ThrowException(String::New("ra and dec must be finite."));
1445
1446 HandleScope handle_scope;
1447
1448 const Local<Value> date = args.This()->Get(String::New("time"));
1449 if (date.IsEmpty() || date->IsUndefined() )
1450 return Undefined();
1451
1452 const uint64_t v = uint64_t(date->NumberValue());
1453 const Time utc(v/1000, v%1000);
1454
1455 ln_lnlat_posn obs;
1456 obs.lng = -(17.+53./60+26.525/3600);
1457 obs.lat = 28.+45./60+42.462/3600;
1458
1459 ln_hrz_posn hrz;
1460 ln_get_hrz_from_equ(&equ, &obs, utc.JD(), &hrz);
1461
1462 Handle<Value> arg[] = { Number::New(90-hrz.alt), Number::New(hrz.az), date };
1463 return handle_scope.Close(fTemplateLocal->GetFunction()->NewInstance(3, arg));
1464}
1465
1466Handle<Value> InterpreterV8::ConstructorMoon(const Arguments &args)
1467{
1468 if (args.Length()>1)
1469 return ThrowException(String::New("Moon constructor must not be called with more than one argument."));
1470
1471 if (args.Length()==1 && !args[0]->IsDate())
1472 return ThrowException(String::New("Argument must be a Date"));
1473
1474 HandleScope handle_scope;
1475
1476 const Local<Value> date =
1477 args.Length()==0 ? Date::New(Time().JavaDate()) : args[0];
1478 if (date.IsEmpty())
1479 return Undefined();
1480
1481 const uint64_t v = uint64_t(date->NumberValue());
1482 const Time utc(v/1000, v%1000);
1483
1484 ln_equ_posn equ;
1485 ln_get_lunar_equ_coords_prec(utc.JD(), &equ, 0.01);
1486
1487 // ----------------------------
1488
1489 if (!args.IsConstructCall())
1490 return Constructor(args);
1491
1492 Handle<Function> function =
1493 FunctionTemplate::New(MoonToLocal)->GetFunction();
1494 if (function.IsEmpty())
1495 return Undefined();
1496
1497 Handle<Object> self = args.This();
1498 self->Set(String::New("ra"), Number::New(equ.ra/15), ReadOnly);
1499 self->Set(String::New("dec"), Number::New(equ.dec), ReadOnly);
1500 self->Set(String::New("toLocal"), function, ReadOnly);
1501 self->Set(String::New("time"), date, ReadOnly);
1502
1503 return handle_scope.Close(self);
1504}
1505
1506Handle<Value> InterpreterV8::ConstructorSky(const Arguments &args)
1507{
1508 if (args.Length()<2 || args.Length()>3)
1509 return ThrowException(String::New("Sky constructor takes two or three arguments."));
1510
1511 if (args.Length()==3 && !args[2]->IsDate())
1512 return ThrowException(String::New("Third argument must be a Date."));
1513
1514 const double ra = args[0]->NumberValue();
1515 const double dec = args[1]->NumberValue();
1516
1517 if (!finite(ra) || !finite(dec))
1518 return ThrowException(String::New("Both arguments to Sky must be valid numbers."));
1519
1520 // ----------------------------
1521
1522 HandleScope handle_scope;
1523
1524 if (!args.IsConstructCall())
1525 return Constructor(args);
1526
1527 Handle<Function> function =
1528 FunctionTemplate::New(SkyToLocal)->GetFunction();
1529 if (function.IsEmpty())
1530 return Undefined();
1531
1532 Handle<Object> self = args.This();
1533 self->Set(String::New("ra"), Number::New(ra), ReadOnly);
1534 self->Set(String::New("dec"), Number::New(dec), ReadOnly);
1535 self->Set(String::New("toLocal"), function, ReadOnly);
1536 if (args.Length()==3)
1537 self->Set(String::New("time"), args[2], ReadOnly);
1538
1539 return handle_scope.Close(self);
1540}
1541
1542Handle<Value> InterpreterV8::ConstructorLocal(const Arguments &args)
1543{
1544 if (args.Length()<2 || args.Length()>3)
1545 return ThrowException(String::New("Local constructor takes two or three arguments."));
1546
1547 if (args.Length()==3 && !args[2]->IsDate())
1548 return ThrowException(String::New("Third argument must be a Date."));
1549
1550 const double zd = args[0]->NumberValue();
1551 const double az = args[1]->NumberValue();
1552
1553 if (!finite(zd) || !finite(az))
1554 return ThrowException(String::New("Both arguments to Local must be valid numbers."));
1555
1556 // --------------------
1557
1558 HandleScope handle_scope;
1559
1560 if (!args.IsConstructCall())
1561 return Constructor(args);
1562
1563 Handle<Function> function =
1564 FunctionTemplate::New(LocalToSky)->GetFunction();
1565 if (function.IsEmpty())
1566 return Undefined();
1567
1568 Handle<Object> self = args.This();
1569 self->Set(String::New("zd"), Number::New(zd), ReadOnly);
1570 self->Set(String::New("az"), Number::New(az), ReadOnly);
1571 self->Set(String::New("toSky"), function, ReadOnly);
1572 if (args.Length()==3)
1573 self->Set(String::New("time"), args[2], ReadOnly);
1574
1575 return handle_scope.Close(self);
1576}
1577
1578Handle<Object> InterpreterV8::ConstructRiseSet(const Handle<Value> time, const ln_rst_time &rst, const bool &rc)
1579{
1580 Handle<Object> obj = Object::New();
1581 obj->Set(String::New("time"), time, ReadOnly);
1582
1583 const uint64_t v = uint64_t(time->NumberValue());
1584 const double jd = Time(v/1000, v%1000).JD();
1585
1586 const bool isUp = rc>0 ||
1587 (rst.rise<rst.set && (jd>rst.rise && jd<rst.set)) ||
1588 (rst.rise>rst.set && (jd<rst.set || jd>rst.rise));
1589
1590 obj->Set(String::New("isUp"), Boolean::New(rc>=0 && isUp), ReadOnly);
1591
1592 if (rc!=0)
1593 return obj;
1594
1595 Handle<Value> rise = Date::New(Time(rst.rise).JavaDate());
1596 Handle<Value> set = Date::New(Time(rst.set).JavaDate());
1597 Handle<Value> trans = Date::New(Time(rst.transit).JavaDate());
1598 if (rise.IsEmpty() || set.IsEmpty() || trans.IsEmpty())
1599 return Handle<Object>();
1600
1601 obj->Set(String::New("rise"), rise, ReadOnly);
1602 obj->Set(String::New("set"), set, ReadOnly);
1603 obj->Set(String::New("transit"), trans, ReadOnly);
1604
1605 return obj;
1606}
1607
1608Handle<Value> InterpreterV8::SunHorizon(const Arguments &args)
1609{
1610 if (args.Length()>2)
1611 return ThrowException(String::New("Sun.horizon must not be called with one or two arguments."));
1612
1613 if (args.Length()==2 && !args[1]->IsDate())
1614 return ThrowException(String::New("Second argument must be a Date"));
1615
1616 HandleScope handle_scope;
1617
1618 double hrz = NAN;
1619 if (args.Length()==0 || args[0]->IsNull())
1620 hrz = LN_SOLAR_STANDART_HORIZON;
1621 if (args.Length()>0 && args[0]->IsNumber())
1622 hrz = args[0]->NumberValue();
1623 if (args.Length()>0 && args[0]->IsString())
1624 {
1625 string arg(Tools::Trim(*String::AsciiValue(args[0])));
1626 transform(arg.begin(), arg.end(), arg.begin(), ::tolower);
1627
1628 if (arg==string("horizon").substr(0, arg.length()))
1629 hrz = LN_SOLAR_STANDART_HORIZON;
1630 if (arg==string("civil").substr(0, arg.length()))
1631 hrz = LN_SOLAR_CIVIL_HORIZON;
1632 if (arg==string("nautical").substr(0, arg.length()))
1633 hrz = LN_SOLAR_NAUTIC_HORIZON;
1634 if (arg==string("fact").substr(0, arg.length()))
1635 hrz = -15;
1636 if (arg==string("astronomical").substr(0, arg.length()))
1637 hrz = LN_SOLAR_ASTRONOMICAL_HORIZON;
1638 }
1639
1640 if (!finite(hrz))
1641 return ThrowException(String::New("Second argument did not yield a valid number."));
1642
1643 const Local<Value> date =
1644 args.Length()<2 ? Date::New(Time().JavaDate()) : args[1];
1645 if (date.IsEmpty())
1646 return Undefined();
1647
1648 const uint64_t v = uint64_t(date->NumberValue());
1649 const Time utc(v/1000, v%1000);
1650
1651 ln_lnlat_posn obs;
1652 obs.lng = -(17.+53./60+26.525/3600);
1653 obs.lat = 28.+45./60+42.462/3600;
1654
1655 // get Julian day from local time
1656 const double JD = utc.JD();
1657
1658 ln_rst_time sun;
1659 const int rc = ln_get_solar_rst_horizon(JD-0.5, &obs, hrz, &sun);
1660 Handle<Object> rst = ConstructRiseSet(date, sun, rc);
1661 rst->Set(String::New("horizon"), Number::New(hrz));
1662 return handle_scope.Close(rst);
1663};
1664
1665Handle<Value> InterpreterV8::MoonHorizon(const Arguments &args)
1666{
1667 if (args.Length()>1)
1668 return ThrowException(String::New("Moon.horizon must not be called with one argument."));
1669
1670 if (args.Length()==1 && !args[0]->IsDate())
1671 return ThrowException(String::New("Argument must be a Date"));
1672
1673 HandleScope handle_scope;
1674
1675 const Local<Value> date =
1676 args.Length()==0 ? Date::New(Time().JavaDate()) : args[0];
1677 if (date.IsEmpty())
1678 return Undefined();
1679
1680 const uint64_t v = uint64_t(date->NumberValue());
1681 const Time utc(v/1000, v%1000);
1682
1683 ln_lnlat_posn obs;
1684 obs.lng = -(17.+53./60+26.525/3600);
1685 obs.lat = 28.+45./60+42.462/3600;
1686
1687 // get Julian day from local time
1688 const double JD = utc.JD();
1689
1690 ln_rst_time moon;
1691 const int rc = ln_get_lunar_rst(JD-0.5, &obs, &moon);
1692 Handle<Object> rst = ConstructRiseSet(date, moon, rc);
1693 return handle_scope.Close(rst);
1694};
1695#endif
1696
1697// ==========================================================================
1698// Process control
1699// ==========================================================================
1700
1701bool InterpreterV8::HandleException(TryCatch& try_catch, const char *where)
1702{
1703 if (!try_catch.HasCaught() || !try_catch.CanContinue())
1704 return true;
1705
1706 const HandleScope handle_scope;
1707
1708 Handle<Value> except = try_catch.Exception();
1709 if (except.IsEmpty() || except->IsNull())
1710 return true;
1711
1712 const String::AsciiValue exception(except);
1713
1714 const Handle<Message> message = try_catch.Message();
1715 if (message.IsEmpty())
1716 return false;
1717
1718 ostringstream out;
1719
1720 if (!message->GetScriptResourceName()->IsUndefined())
1721 {
1722 // Print (filename):(line number): (message).
1723 const String::AsciiValue filename(message->GetScriptResourceName());
1724 if (filename.length()>0)
1725 {
1726 out << *filename;
1727 if (message->GetLineNumber()>0)
1728 out << ": l." << message->GetLineNumber();
1729 if (*exception)
1730 out << ": ";
1731 }
1732 }
1733
1734 if (*exception)
1735 out << *exception;
1736
1737 out << " [" << where << "]";
1738
1739 JsException(out.str());
1740
1741 // Print line of source code.
1742 const String::AsciiValue sourceline(message->GetSourceLine());
1743 if (*sourceline)
1744 JsException(*sourceline);
1745
1746 // Print wavy underline (GetUnderline is deprecated).
1747 const int start = message->GetStartColumn();
1748 const int end = message->GetEndColumn();
1749
1750 out.str("");
1751 if (start>0)
1752 out << setfill(' ') << setw(start) << ' ';
1753 out << setfill('^') << setw(end-start) << '^';
1754
1755 JsException(out.str());
1756
1757 const String::AsciiValue stack_trace(try_catch.StackTrace());
1758 if (stack_trace.length()<=0)
1759 return false;
1760
1761 if (!*stack_trace)
1762 return false;
1763
1764 const string trace(*stack_trace);
1765
1766 typedef boost::char_separator<char> separator;
1767 const boost::tokenizer<separator> tokenizer(trace, separator("\n"));
1768
1769 // maybe skip: " at internal:"
1770
1771 auto it = tokenizer.begin();
1772 JsException("");
1773 while (it!=tokenizer.end())
1774 JsException(*it++);
1775
1776 return false;
1777}
1778
1779Handle<Value> InterpreterV8::ExecuteInternal(const string &code)
1780{
1781 // Try/catch and re-throw hides our internal code from
1782 // the displayed exception showing the origin and shows
1783 // the user function instead.
1784 TryCatch exception;
1785
1786 const Handle<Value> result = ExecuteCode(code);
1787 if (exception.HasCaught())
1788 exception.ReThrow();
1789
1790 return result;
1791}
1792
1793Handle<Value> InterpreterV8::ExecuteCode(const string &code, const string &file, bool main)
1794{
1795 HandleScope handle_scope;
1796
1797 const Handle<String> source = String::New(code.c_str(), code.size());
1798 const Handle<String> origin = String::New(file.c_str());
1799 if (source.IsEmpty())
1800 return Handle<Value>();
1801
1802 const Handle<Script> script = Script::Compile(source, origin);
1803 if (script.IsEmpty())
1804 return Handle<Value>();
1805
1806 if (main)
1807 JsSetState(3);
1808
1809 TryCatch exception;
1810
1811 const Handle<Value> result = script->Run();
1812
1813 if (exception.HasCaught())
1814 {
1815 if (file=="internal")
1816 return exception.ReThrow();
1817
1818 HandleException(exception, "code");
1819 return Handle<Value>();
1820 }
1821
1822 // If all went well and the result wasn't undefined then print
1823 // the returned value.
1824 if (!result.IsEmpty() && result->IsUndefined())
1825 JsResult(*String::AsciiValue(result));
1826
1827 return handle_scope.Close(result);
1828}
1829
1830bool InterpreterV8::ExecuteFile(const string &name, bool main)
1831{
1832 ifstream fin(name.c_str());
1833 if (!fin)
1834 {
1835 JsException("Error - Could not open file '"+name+"'");
1836 return false;
1837 }
1838
1839 string buffer;
1840 if (!getline(fin, buffer, '\0'))
1841 return true;
1842
1843 if (fin.fail())
1844 {
1845 JsException("Error - reading file.");
1846 return false;
1847 }
1848
1849 return !ExecuteCode(buffer, name, main).IsEmpty();
1850}
1851
1852bool InterpreterV8::ExecuteConsole()
1853{
1854 JsSetState(3);
1855
1856 WindowLog lout;
1857 lout << "\n " << kUnderline << " JavaScript interpreter " << kReset << " (enter '.q' to quit)\n" << endl;
1858
1859 Readline::StaticPushHistory("java.his");
1860
1861 string command;
1862
1863 while (1)
1864 {
1865 const string buffer = Tools::Trim(Readline::StaticPrompt(command.empty() ? "JS> " : " \\> "));
1866 if (buffer==".q")
1867 break;
1868
1869 // buffer empty, do nothing
1870 if (buffer.empty())
1871 continue;
1872
1873 // Compose command
1874 if (!command.empty())
1875 command += ' ';
1876 command += buffer;
1877
1878 // If line ends with a backslash, allow addition of next line
1879 if (command.back()=='\\')
1880 {
1881 command[command.length()-1] = ' ';
1882 command = Tools::Trim(command);
1883 continue;
1884 }
1885
1886 // Catch exceptions during code compilation
1887 TryCatch exception;
1888
1889 // Execute code which was entered
1890 bool rc = ExecuteCode(command, "", false).IsEmpty();
1891 if (exception.HasCaught())
1892 {
1893 HandleException(exception, "compile");
1894 rc = true;
1895 }
1896
1897 // In case of an exception add an empty line to the output
1898 if (rc)
1899 lout << endl;
1900
1901 // command has been executed, collect new command
1902 command = "";
1903 }
1904
1905 lout << endl;
1906
1907 Readline::StaticPopHistory("java.his");
1908
1909 return true;
1910}
1911
1912// ==========================================================================
1913// CORE
1914// ==========================================================================
1915
1916InterpreterV8::InterpreterV8() : fThreadId(-1)
1917{
1918 const string ver(V8::GetVersion());
1919
1920 typedef boost::char_separator<char> separator;
1921 const boost::tokenizer<separator> tokenizer(ver, separator("."));
1922
1923 const vector<string> tok(tokenizer.begin(), tokenizer.end());
1924
1925 const int major = tok.size()>0 ? stol(tok[0]) : -1;
1926 const int minor = tok.size()>1 ? stol(tok[1]) : -1;
1927 const int build = tok.size()>2 ? stol(tok[2]) : -1;
1928
1929 if (major>3 || (major==3 && minor>9) || (major==3 && minor==9 && build>10))
1930 {
1931 const string argv = "--use_strict";
1932 V8::SetFlagsFromString(argv.c_str(), argv.size());
1933 }
1934
1935 This = this;
1936}
1937
1938Handle<Value> InterpreterV8::Constructor(/*Handle<FunctionTemplate> T,*/ const Arguments &args)
1939{
1940 Handle<Value> argv[args.Length()];
1941
1942 for (int i=0; i<args.Length(); i++)
1943 argv[i] = args[i];
1944
1945 return args.Callee()->NewInstance(args.Length(), argv);
1946}
1947
1948
1949void InterpreterV8::AddFormatToGlobal()// const
1950{
1951 const string code =
1952 "String.form = function(str, arr)"
1953 "{"
1954 "var i = -1;"
1955 "function callback(exp, p0, p1, p2, p3, p4/*, pos, str*/)"
1956 "{"
1957 "if (exp=='%%')"
1958 "return '%';"
1959 ""
1960 "if (arr[++i]===undefined)"
1961 "return undefined;"
1962 ""
1963 "var exp = p2 ? parseInt(p2.substr(1)) : undefined;"
1964 "var base = p3 ? parseInt(p3.substr(1)) : undefined;"
1965 ""
1966 "var val;"
1967 "switch (p4)"
1968 "{"
1969 "case 's': val = arr[i]; break;"
1970 "case 'c': val = arr[i][0]; break;"
1971 "case 'f': val = parseFloat(arr[i]).toFixed(exp); break;"
1972 "case 'p': val = parseFloat(arr[i]).toPrecision(exp); break;"
1973 "case 'e': val = parseFloat(arr[i]).toExponential(exp); break;"
1974 "case 'x': val = parseInt(arr[i]).toString(base?base:16); break;"
1975 "case 'd': val = parseFloat(parseInt(arr[i], base?base:10).toPrecision(exp)).toFixed(0); break;"
1976 //"default:\n"
1977 //" throw new SyntaxError('Conversion specifier '+p4+' unknown.');\n"
1978 "}"
1979 ""
1980 "val = typeof(val)=='object' ? JSON.stringify(val) : val.toString(base);"
1981 ""
1982 "var sz = parseInt(p1); /* padding size */"
1983 "var ch = p1 && p1[0]=='0' ? '0' : ' '; /* isnull? */"
1984 "while (val.length<sz)"
1985 "val = p0 !== undefined ? val+ch : ch+val; /* isminus? */"
1986 ""
1987 "return val;"
1988 "}"
1989 ""
1990 "var regex = /%(-)?(0?[0-9]+)?([.][0-9]+)?([#][0-9]+)?([scfpexd])/g;"
1991 "return str.replace(regex, callback);"
1992 "}"
1993 "\n"
1994 "String.prototype.$ = function()"
1995 "{"
1996 "return String.form(this, Array.prototype.slice.call(arguments));"
1997 "}"/*
1998 "\n"
1999 "var format = function()"
2000 "{"
2001 "return dim.format(arguments[0], Array.prototype.slice.call(arguments,1));"
2002 "}"*/;
2003
2004 // ExcuteInternal does not work properly here...
2005 // If suring compilation an exception is thrown, it will not work
2006 Handle<Script> script = Script::New(String::New(code.c_str()), String::New("internal"));
2007 if (!script.IsEmpty())
2008 script->Run();
2009}
2010
2011bool InterpreterV8::JsRun(const string &filename, const map<string, string> &map)
2012{
2013 const Locker locker;
2014 fThreadId = V8::GetCurrentThreadId();
2015
2016 JsPrint(string("JavaScript Engine V8 ")+V8::GetVersion());
2017
2018 JsLoad(filename);
2019
2020 const HandleScope handle_scope;
2021
2022 // Create a template for the global object.
2023 Handle<ObjectTemplate> dim = ObjectTemplate::New();
2024 dim->Set(String::New("log"), FunctionTemplate::New(WrapLog), ReadOnly);
2025 dim->Set(String::New("alarm"), FunctionTemplate::New(WrapAlarm), ReadOnly);
2026 dim->Set(String::New("wait"), FunctionTemplate::New(WrapWait), ReadOnly);
2027 dim->Set(String::New("send"), FunctionTemplate::New(WrapSend), ReadOnly);
2028 dim->Set(String::New("state"), FunctionTemplate::New(WrapState), ReadOnly);
2029 dim->Set(String::New("version"), Integer::New(DIM_VERSION_NUMBER), ReadOnly);
2030 dim->Set(String::New("getStates"), FunctionTemplate::New(WrapGetStates), ReadOnly);
2031
2032 Handle<ObjectTemplate> dimctrl = ObjectTemplate::New();
2033 dimctrl->Set(String::New("defineState"), FunctionTemplate::New(WrapNewState), ReadOnly);
2034 dimctrl->Set(String::New("setState"), FunctionTemplate::New(WrapSetState), ReadOnly);
2035 dimctrl->Set(String::New("getState"), FunctionTemplate::New(WrapGetState), ReadOnly);
2036
2037 Handle<ObjectTemplate> v8 = ObjectTemplate::New();
2038 v8->Set(String::New("sleep"), FunctionTemplate::New(WrapSleep), ReadOnly);
2039 v8->Set(String::New("version"), String::New(V8::GetVersion()), ReadOnly);
2040
2041 Handle<ObjectTemplate> console = ObjectTemplate::New();
2042 console->Set(String::New("out"), FunctionTemplate::New(WrapOut), ReadOnly);
2043
2044 Handle<ObjectTemplate> onchange = ObjectTemplate::New();
2045 onchange->SetNamedPropertyHandler(OnChangeGet, WrapOnChangeSet);
2046 dim->Set(String::New("onchange"), onchange);
2047
2048 Handle<ObjectTemplate> global = ObjectTemplate::New();
2049 global->Set(String::New("v8"), v8, ReadOnly);
2050 global->Set(String::New("dim"), dim, ReadOnly);
2051 global->Set(String::New("dimctrl"), dimctrl, ReadOnly);
2052 global->Set(String::New("console"), console, ReadOnly);
2053 global->Set(String::New("include"), FunctionTemplate::New(WrapInclude), ReadOnly);
2054 global->Set(String::New("exit"), FunctionTemplate::New(WrapExit), ReadOnly);
2055
2056 Handle<FunctionTemplate> sub = FunctionTemplate::New(WrapSubscription);
2057 sub->SetClassName(String::New("Subscription"));
2058 sub->InstanceTemplate()->SetInternalFieldCount(1);
2059 global->Set(String::New("Subscription"), sub, ReadOnly);
2060
2061 Handle<FunctionTemplate> db = FunctionTemplate::New(WrapDatabase);
2062 db->SetClassName(String::New("Database"));
2063 db->InstanceTemplate()->SetInternalFieldCount(1);
2064 global->Set(String::New("Database"), db, ReadOnly);
2065
2066 Handle<FunctionTemplate> thread = FunctionTemplate::New(WrapThread);
2067 thread->SetClassName(String::New("Thread"));
2068 global->Set(String::New("Thread"), thread, ReadOnly);
2069
2070 Handle<FunctionTemplate> file = FunctionTemplate::New(WrapFile);
2071 file->SetClassName(String::New("File"));
2072 global->Set(String::New("File"), file, ReadOnly);
2073
2074 Handle<FunctionTemplate> evt = FunctionTemplate::New();
2075 evt->SetClassName(String::New("Event"));
2076 global->Set(String::New("Event"), evt, ReadOnly);
2077
2078 fTemplateEvent = evt;
2079
2080#ifdef HAVE_NOVA
2081 Handle<FunctionTemplate> sky = FunctionTemplate::New(ConstructorSky);
2082 sky->SetClassName(String::New("Sky"));
2083 sky->Set(String::New("dist"), FunctionTemplate::New(SkyDist), ReadOnly);
2084 global->Set(String::New("Sky"), sky, ReadOnly);
2085
2086 Handle<FunctionTemplate> loc = FunctionTemplate::New(ConstructorLocal);
2087 loc->SetClassName(String::New("Local"));
2088 loc->Set(String::New("dist"), FunctionTemplate::New(LocalDist), ReadOnly);
2089 global->Set(String::New("Local"), loc, ReadOnly);
2090
2091 Handle<FunctionTemplate> moon = FunctionTemplate::New(ConstructorMoon);
2092 moon->SetClassName(String::New("Moon"));
2093 moon->Set(String::New("disk"), FunctionTemplate::New(MoonDisk), ReadOnly);
2094 moon->Set(String::New("horizon"), FunctionTemplate::New(MoonHorizon), ReadOnly);
2095 global->Set(String::New("Moon"), moon, ReadOnly);
2096
2097 Handle<FunctionTemplate> sun = FunctionTemplate::New();
2098 sun->SetClassName(String::New("Sun"));
2099 sun->Set(String::New("horizon"), FunctionTemplate::New(SunHorizon), ReadOnly);
2100 global->Set(String::New("Sun"), sun, ReadOnly);
2101
2102 fTemplateLocal = loc;
2103 fTemplateSky = sky;
2104#endif
2105
2106 // Persistent
2107 Persistent<Context> context = Context::New(NULL, global);
2108 if (context.IsEmpty())
2109 {
2110 JsException("Creation of global context failed...");
2111 JsEnd(filename);
2112 return false;
2113 }
2114
2115 // Switch off eval(). It is not possible to track it's exceptions.
2116 context->AllowCodeGenerationFromStrings(false);
2117
2118 Context::Scope scope(context);
2119
2120 Handle<Array> args = Array::New(map.size());
2121 for (auto it=map.begin(); it!=map.end(); it++)
2122 args->Set(String::New(it->first.c_str()), String::New(it->second.c_str()));
2123 context->Global()->Set(String::New("$"), args, ReadOnly);
2124 context->Global()->Set(String::New("arg"), args, ReadOnly);
2125
2126 //V8::ResumeProfiler();
2127
2128 TryCatch exception;
2129
2130 AddFormatToGlobal();
2131
2132 bool rc = true;
2133 if (!exception.HasCaught())
2134 {
2135 JsStart(filename);
2136
2137 Locker::StartPreemption(10);
2138
2139 rc &= filename.empty() ? ExecuteConsole() : ExecuteFile(filename, true);
2140
2141 Locker::StopPreemption();
2142
2143 // Stop all other threads
2144 for (auto it=fThreadIds.begin(); it!=fThreadIds.end(); it++)
2145 V8::TerminateExecution(*it);
2146 fThreadIds.clear();
2147 }
2148
2149 // Handle an exception
2150 rc &= HandleException(exception, "main");
2151
2152 // IsProfilerPaused()
2153 // V8::PauseProfiler();
2154
2155 // -----
2156 // This is how an exit handler could look like, but there is no way to interrupt it
2157 // -----
2158 // Handle<Object> obj = Handle<Object>::Cast(context->Global()->Get(String::New("dim")));
2159 // if (!obj.IsEmpty())
2160 // {
2161 // Handle<Value> onexit = obj->Get(String::New("onexit"));
2162 // if (!onexit->IsUndefined())
2163 // Handle<Function>::Cast(onexit)->NewInstance(0, NULL); // argc, argv
2164 // // Handle<Object> result = Handle<Function>::Cast(onexit)->NewInstance(0, NULL); // argc, argv
2165 // }
2166
2167 //context->Exit();
2168
2169 // The threads are started already and wait to get the lock
2170 // So we have to unlock (manual preemtion) so that they get
2171 // the signal to terminate.
2172 {
2173 const Unlocker unlock;
2174
2175 for (auto it=fThreads.begin(); it!=fThreads.end(); it++)
2176 it->join();
2177 fThreads.clear();
2178 }
2179
2180 // Now we can dispose all persistent handles from state callbacks
2181 for (auto it=fStateCallbacks.begin(); it!=fStateCallbacks.end(); it++)
2182 it->second.Dispose();
2183 fStateCallbacks.clear();
2184
2185 // Now we can dispose all persistent handles from reverse maps
2186 for (auto it=fReverseMap.begin(); it!=fReverseMap.end(); it++)
2187 it->second.Dispose();
2188 fReverseMap.clear();
2189
2190#ifdef HAVE_SQL
2191 // ...and close all database handles
2192 for (auto it=fDatabases.begin(); it!=fDatabases.end(); it++)
2193 delete *it;
2194 fDatabases.clear();
2195#endif
2196
2197 fStates.clear();
2198
2199 context.Dispose();
2200
2201 JsEnd(filename);
2202
2203 return true;
2204}
2205
2206void InterpreterV8::JsStop()
2207{
2208 Locker locker;
2209 V8::TerminateExecution(This->fThreadId);
2210}
2211
2212#endif
2213
2214InterpreterV8 *InterpreterV8::This = 0;
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