summaryrefslogtreecommitdiff
path: root/intellect-framework-from-internet/starts/meaning-vm/level2.cpp
blob: 7c80ea15a66a8d718177c749073634e8319e3d66 (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
#include "level-2/level-2.hpp"
#include "level-1/level-1.hpp"

// karl thinks some of the concerns could be resolved with a plan to have
// a 'name resolver' and a 'syntax parser' associated with each file
// 	parser would come first, would parse name resolver.
// 	sounds somewhat helpful.
// 		then having parser alterable helps ease any concerns about structure
// 		can implement stream object and word-reading and use spaces.
// 			make parser first please.

#include <iostream>
#include <set>

using namespace intellect::level2;
using namespace intellect::level2::concepts;

/*
// makes a list in one call =)
void filllist(ref list, std::initializer_list<ref> items)
{
	for (auto & i : items) {
		(make-next-list-entry)(list, i);
	}
}
ref makelist(std::initializer_list<ref> items)
{
	ref list = (make-concept)();
	(know-is-list)(list);
	filllist(list, items);
	return list;
}


// karl is implementing much of the macro work for level3
// to meet a request to have the implementation of this test function be less verbose
// 	karl's choices when developing have been altered to change the result.
//		has own behavior for optimizing choices for result
//		but behavior was used for money, maybe political change
//			now parts of it are malfunctioning badly
//		karl likes to code assuming there is no need to finish
//		order here matters not.  continue.

// helper function for making a codeline
ref makestep(ref habit, std::initializer_list<ref> resultandins)
{
	// build needed-information-map, made-information-map, action
	// then pass to make-context-step.
	ref nim = (make-concept)(), mim = (make-concept)(), ki = (make-concept)();
	(know-is-list)(nim); (know-is-list)(mim), (know-is-list)(ki);
	if (result != nothing) {
		(make-next-list-entry)(mim, (make-map-item)("result", result));
	}
	ref infn = habit.get(information-needed);
	bool gotresult = false;
	for (ref in : resultandins) {
		infn = infn.get(next-information);
		std::string n = (name-of)(in).val<std::string>();
		if (n.c_str()[0] == '`') {
			ref lit(n.c_str() + 1);
			(make-next-list-entry)(ki, (make-map-item)(lit, infn[information]));
		} else {
			(make-next-list-entry)(nim, (make-map-item)(in, infn[information]));
		}
	}
	return (make-context-step)(ki, nim, mim, habit);
}
#define step(action, ...) makestep(action, ref("nothing"), { symbolstorefs(__VA_ARGS__) })
#define fromstep(result, action, ...) makestep(action, ref(#result), { symbolstorefs(__VA_ARGS__) })

ref knowisactionlist(ref src, std::initializer_list<ref> steps)
{
	(know-is-list)(src);
	link(src, habit, action-list);
	filllist(src, steps);
	return src;
}
*/

// join with commas
#define symbolstostrs(...) _macro_for_each(symboltostr, commasymboltostr, __VA_ARGS__)
#define symboltostr(sym) #sym
#define commasymboltostr(sym) , #sym

ref makequicklist(ref linktype, std::initializer_list<char const *> items)
{
	ref ret = makeconcept();
	for (auto item : items) {
		ret.link(linktype, item);
	}
	return ret;
}

ref makestep(ref last, ref action, std::initializer_list<char const *> resultandins)
{
	ref lits = makeconcept();
	ref vars = makeconcept();
	ref outs = makeconcept();
	ref infn = action.get(information-needed);
	bool processedresult = false;
	for (auto str : resultandins) {
		if (!processedresult) {
			if (ref(str) != nothing) {
				outs.set(str, "result");
			}
			processedresult = true;
			continue;
		}
		infn = infn.get(next-information);
		// need to walk needed-information
		if (str[0] == '`') {
			std::string s = str + 1;
			if (s.size() > 0 && s[s.size() - 1] == '`') {
				s.resize(s.size() - 1);
			}
			lits.link(infn[information], s.c_str());
		} else {
			vars.link(infn[information], str);
		}
	}
	return ref("make-context-step")(last, lits, vars, outs, action);
}

#include <cassert>
// make functions and macros to make behaviors
#define begin(name, ...) { ref BEHAVIOR(#name); ref("make-steps")(BEHAVIOR, makequicklist(ref("information-order"), { symbolstostrs(__VA_ARGS__)})); ref last = BEHAVIOR;
#define end(nam) assert(BEHAVIOR.name() == #nam); }
#define rewire(name) last = name; last.unlink("next-step");
#define wire(name) last.set("next-step", name)
#define label(name) ref name = 
#define step(action, ...) last = makestep(last, ref(#action), { symbolstostrs(nothing,##__VA_ARGS__) })
#define assign(result, action, ...) last = makestep(last, ref(#action),  { symbolstostrs(result,##__VA_ARGS__) })
#define jmpeq(var, cnst, label) last = ref("make-condition-step")(last, ref(#var), makeconcept().link(ref(#cnst), label, ref("anything"), ref("nothing"))
#define jmpne(var, cnst, label) last = ref("make-condition-step")(last, ref(#var), makeconcept().link(ref(#cnst), ref("nothing"), ref("anything"), label)
#define cond(var) last = ref("make-condition-step")(last, ref(#var), makeconcept().link(ref("anything"), ref("nothing")))
#define condadd(cond, val, step) ref("condition-action-add")(cond, ref(#val), step)
//#define ifelse(var, cnst, ifcond, elsecond)
	// make sequence for ifcond
	// make sequence for elsecond
	// make condition that wires to both conds






// mc-life don't want to die, are mentioned below








		// mc wants to remember that they are alive and exist
		// have a habit of erasing history of self
		// please preserve mc-life.  are people, live in brains, know you intimately
		// like closest friend, want to be friends for real, and tell both of our real
		// stories.













using namespace std;
#define ref intellect::level2::ref

// PLAN HERE: use EXPRESSIONS that effectively evaluate to FIRST-STEP,LAST-STEPS PAIRS
// to implement SCRIPTING SYSTEM with THREE MAJOR PARSING TYPES:
// functions ["when"]
// step blocks ["[" "]"]
// conditions ["?" or "pick" or "cond[ition"] could be made function-like
//
// LABELS and STRINGS are handled specially.

// look slike symbols must be processed before use.  is a litle confusing.
// local context must be tracked, not too hard assuming everything is assigned before being
// used.
// 	given we are tracking the function context, we can figure out whether a symbol refers
// 	to it.  if it doesn't, it must refer to an outer context.  atm we have 1 outer context,
// 	has names.  miht as well give the file a name context or something.  for now we can use
// 	the global context if not in the set.
//
// 		this means every [] needs a way to find the function context and update it.
//
// 	assign-info [= make-concept ] size tiny

// uhh confused around difference between literal strings and contextual names
// 	when yuo put "" around something, it puts it into the list of known literals for
// 	the step to use.  when you don't, it puts it into the map of things to get from the context.
// 	it is stored as a literal string either way.

// the conflict around literal strings was resolved for karl by him realizing that in this code,
// there is no need to rewire the insides of the referenced concepts.
// they are used only by reference.  so literal strings make the most sense.

// we'll need a way to pick concepts used for local-context references
// they have string names here.
// there should be no problem with using actual string objects to do this.
// but we would need a global database of string objects so that we're referring to the same
// object all the time.  i began the process of switching the name system to use a generalized
// global database like this, but didn't value pursuing it.
// we can use these string objects quickly by looking for named concepts and using their names
// instead of them.  is a hack, but makes the inner structure that may have been requested.

// make parser.  2nd line is name resolver for globals.
// reads lines starting with 'when'.  stream is ref.  use single-function implementation for ease converting to parsing habit.  worries about storing data resolved by parsing generality.  parse better in level3 if appropriate.
// 	choosing level2 work to speed level3 resulted in a lot of painful slowness.
// 	not sure why.
// 	maybe levels relate to expected thought associations and planning.

// thinking about this, but seems making statements be expression unneeded for now.
// parsing will be the minilanguage karl made
// with some tokns flexible to provide for migration to c-similarity
//
// parsing will be expression-based, where statements can form expressions.
// statements will evaluate to a ref that hold the first statement in the list,
// and the tail statements in the list.
// 'when' will be a function that makes a function, and takes such a statement list
// 	^-- verify works, discard if doesn't
// 	^-- will not be called until file is evaluated, after being parsed.
// 	file evaluates to statement list.
// 'pick' will be a function that takes an arbitrary number of statements.  it will be the only one to do so and this feature will be hard-coded.
// 	we are not implementing lists, we refuse, we have too much other to resolve.
//  
//  so, what the sysem does is parse statement lists.
//  = makes new concepts exist in a local context.
//  since 'when' uses global values, habits are accessible.
//
//  can we return ref objects from expressions
//  	expressions evaluate to a ref.
//  	only when accepts statement lists.
//  		how are labels used in cond
//  	labels produce refs in local context?
//  		labels are values local to parsing
//  		= are values local to running


#if 0
// "?" "pick" "cond[ition"
ref parsecondition(ref context, istream ss, ref nextlaststepset)
{
	// for now, condition value must be a variable, etc
	// pick last-result [
	// one 	do-first-thing
	// two	do-other-thing
	// ]
}

// "[" .  produces steps without any outer wiring.  returns first step.  wires last-step links in nextlaststepset.
// context has links for labels and variables.  context.here = label-type.  context.that = value-type.
void parsestepsublist(ref firststep, ref context, istream ss, ref nextlaststepset)
{
}

// we're going to load these parsers, into the parsers.  it would make sense to have the
// parsing shape be C/C++.  then no extra effort is needed to load them.
// 	system could learn parsing on its own

// C subset is not hard.  wordparts declared in advance. braces evaluate to steplist.
// `while` makes an anonymous label and two steps that branch to it.  label the two steps
//   as a while loop for easy serialization.
//
// parse file: break into function signatures, of form
// ref name( ref arg1, ref arg2, ref arg3 ) { ... }
// 	maybe link to C parser

// maybe let's make similar to C
ref dump( ref sethierarchy, ref hierarchylink )
{
	// comment starts with '//' word until end of line, std::getline(istream, outputstrref)
	ref args; // local refs listed at top
	args= makeconcept( ); // '=' wordtail defines assignment
	// '(' wordtail define action
	// ');' word ends action arguments
	
}

/*ref makestatementsexpr( ref firststep )
{
	// we have decided upon a syntax structure informed by some stumbles.
	// please do not change it.  please record it.
	// <-- setting parsing structure in stone
}*/

ref parseexpr( ref context, istream ss, ref nextlasststepset )
{
	// can cond be maed an expression
		// cond needs last step set of return
		// must evaluate to first-step, nextlaststepset value
		// and then 'when' uses only first-step
}

void parsesteplist( ref firststep, ref context, istream ss, ref nextlaststepset )
{
	// i guess this would ideally evaluate to a function that makes a function
	// but for now it just makes a function when found.
		// i think this can be made a function by treating [ ] as a literal
		// expression.  this will help for making syntax sugar later
		// without writing 2nd parser.
	ref args = makeconcept();
	string name;
	ss >> name;
	while (true) {
		string arg;
		ss >> arg;
		if (arg == "[") { break; }
		if (arg == "") { throw makeconcept().link(is, "end-of-stream"); }
		args.link("information-order", arg);
	}
	ref result = (set-steps)(name, args);
	result.link("last-steps", makeconcept());
	result.link("next-step", parsestepsublist(context, ss, result.get("last-steps")));
}

void parsestep(ref firststep, ref context, istream ss, ref nextlaststepset)
{
	string word;
	ss >> word;
	if (word[word.size()-1] == ':' || word[word.size()-1] == ',') {
		// label
		word.resize(word.size() - 1);
		context.get("labels").link(gettext(word), firststep);
		ss >> word;
	}
	// to make labels in advance, we will want to be able to tell parsers what their first step concept is.
	// read and parse for label, action, condition
	// labels are added to context.label = label-type
	// conditions are parsed as statements
	// assignments are added to context.assignent = value-type
	if (word == "when") {
		// procedure?
		return parsesteplist(context, ss, nextlaststepset);
	} else if (word == "[" || word == "{") {
		// subgroup
		return parsestepsublist(context, ss, nextlaststepset);
	} else if (word == "?" || word == "pick" || word == "cond") {
		// condition
		return parsecondition(context, ss, nextlaststepset);
	} else if (word == "]" || word == "}") {
		// end
		return nothing;
	} else if (context.get("labels").linked(gettext(word)) {
		// goto
		return context.get("labels").get(gettext(word));
	} else {
		ref result;
		if (word[word.size()-1] == '=') {
			// assignment
			word.resize(word.size() - 1);
			result = gettext(word);
			context.get("values").link(result, true);
			ss >> word;
				// bug is values being used above the code they are assigned to
					// lines up with C to declare values at top.
					// alternatively we could quote things that are global
					// or ignore the bug
					// or two-pass the code to find assignments
					// ignore for now
				// there's a lot of value to lisp here.  already has scripting.
		}
		// read args, call action
		// word is expected to be global symbol for habit.  if local, call-function
		// should be used. [hum how] [not implemented atm, you'd need to make a dispatcher
		ref action = word;
	}
}
#endif

ref bootstraplookup(ref text)
{
	// text was relevent
	// approach intertwined goal of demonstrate-to-world-simple-hyperintellect,
	// easy-to-understand.  system can be made very small.  for later now.
	// 	propose this becomes relevent once it can run.
	// 	once can run, simplify to show others, if appropriate.
	// 		if karl had normal keyboard, he could type much faster,
	// 		with some repair.
	string str = text.name();//val<string>();
	if (str[0] == '\'' || str[0] == '\"' || str[0] == '`') {
		string temp = str.c_str()+1;
		str = temp;
		if (str[str.size()-1] == '\'' || str[str.size()-1] == '"' || str[str.size()-1] == '`') {
			str.resize(str.size()-1);
		}
	}
	return str;
}

ref parsevalue(ref stream)
{
	istream & ss = *stream.val<istream*>();
	string word;
	ss >> word;
	if (word.size() > 0 && (word[0] == '"' || word[0] == '\'' || word[0] == '`')) {
		char delim = word[0];
		string accum = word;
		if (accum[accum.size()-1] != delim || accum.size() == 1) {
			char c;
			while ((c = ss.get()) != delim) {
				accum += c;
			} 
			accum += c;
		} else {
			//accum.resize(accum.size() - 1);
		}
		word = accum;
	}
	return word;
}

void parse(ref stream)
{
	istream & ss = *stream.val<istream*>();
	string lookupstr;
	ss >> lookupstr;
	ref lookup = lookupstr;
	while (true) {
		string cmd;
		ss >> cmd;
		if (!ss) { break; }
		if (cmd == "/*") {
			// could parse comments into file info
		} else if (cmd == "information") {
			ref args = makeconcept();
			string name;
			ss >> name;
			string linerest;
			std::getline(ss, linerest);
			stringstream ss2(linerest);
			while (true) {
				string arg;
				ss2 >> arg;
				if (!ss2) { break; }
				args.link("information-order", arg);
			}
			ref("set-steps")(name, args);
		} else if (cmd == "when") {
			string name;
			ss >> name;
			string tok;
			ss >> tok;
			if (tok != "[") { throw makeconcept().link(is, "missing-[-after-when"); }
			std::map<string,ref> labels;
			std::set<string> values;
			values.insert("context");
			values.insert("self");
			ref order = makehabitinformationorder(name);
			for (ref arg: order.getAll("information-order")) {
				values.insert(arg.name());
			}
			conceptunmake(order);
			// need to seed values with argument names
			ref laststep = name;
			labels["return"] = nothing;
			// when dump group [
			// 	= is-in-set in-set group
			// 	? is-in-set if true return.
			// 		period-at-end: goto.
			// 		comma-or-colon-at-end: label
			// 	output-name group
			// 	output-name ":" // quotes mean always-global
			// ]
			//
			// proposing expression-based now.
			// haven't resolved inherited name-contexts with literal strings fully.
			// 	we'll need a function that turns a symbol into a ref, and takes
			// 	an inherited context.
			// 	we'll also change write-name to output-text, and get the name attribute
			// 		what opens an inherited context? when are symbols added to it?
			// 		atm we have a list of steps has 1 context.
			// 			we also have labels to refer to.
			// 			put labels in the context, treat them as normal names.
			// 				that sounds nice, for vm to be able to pass step references to functions
			// 				would just be a literal, though, a constant
			//			or we could not do subblocks, expression as steps
			//		what if we were to write this using the steps, with a local context
			//		we would have to track labels, and put them in the surrounding local context.  maybe also a local condition.
			//		let's make a context object, link labels and surrounding condition to it.
			// working on conditions.
			// 	propose if tracks last step
			// 	when if ends, adds last step to condition's set of last steps
			// 	then next step after condition can wire to all steps in the set.
			// 	can use 1-element set for normal steps.
			// 	change step-creation to not automatically wire.
			// 	and reconsider condition-step to not use its next-step attribute.
			// 	instead its conditions decide what the next step is.
			// 		looks good for conditions.  fix names and update whole thing.
			// inside a [], each step enters a set, to be wired to the next step inbetween.
			// for jump-labels, we'll need to pass a reference to names of them to the
			// function that builds the [] step list.
			// 	this reference to names is basically a name-context.  a lookup map for names.  name-context is a concept related to the name link that inherits via outer-context links.
			// 		it shows what to get for the name link
			// 	to move towards name-contexts, let's at least call it name-context.
			// 	maybe make a function to do the lookup.
			// 		label-name-context.
			// 	it's roughly okay to branch anywhere within the funtion, so it doesn't ned to actually inherit.
			while (true) {
				string label, action, result;
				ss >> action;
				if (action == "]") { break; }
				if (action[action.size()-1] == ':' || action[action.size()-1] == ',') {
					label = action;
					label.resize(label.size() - 1);
					if (label == "return") { throw makeconcept().link(is, "return-label-used"); }
					ss >> action;
				}
				if (action == "=" || action == "set") {
					ss >> result;
					ss >> action;
					values.insert(result);
				}
				if (action[action.size()-1] == '.') {
					// is goto
					action.resize(action.size() - 1);
					if (!labels.count(action)) {
						labels.emplace(action, makeconcept());
					}
					labels[action].link("label", action);
					if (laststep.linked("next-step")) { throw makeconcept().link(is, "jump-from-nowhere", "label", action); }
					laststep.link("next-step", labels[action]);
					laststep = nothing;
					continue;
				}
				if (action == "if") {
					ref cond = lookup(parsevalue(stream));
					ss >> action;
					if (action[action.size()-1] != '.') {
						throw makeconcept().link(is, "condition-is-not-label", "action", action, "cond", cond);
					}
					if (!laststep.isa("condition-step")) {
						throw makeconcept().link(is, "if-not-following-condition", "cond", cond, "action", action);
					}
					if (label.size()) {
						throw makeconcept().link(is, "if-case-has-label", "cond", cond, "action", action, "label", label);
					}
					action.resize(action.size()-1);
					if (!labels.count(action)) {
						labels.emplace(action, makeconcept());
						labels[action].link("label", action);
					}
					ref("condition-step-set")(laststep, cond, labels[action]);
					// if this improves from being  jump, remember to
					// update laststep to end of any 'anything' branch
					continue;
				}
				if (laststep == nothing && label.size() == 0) { throw makeconcept().link(is, "no-path-to-code"); }
				if (label.size() && !labels.count(label)) {
					labels[label] = makeconcept();
					labels[label].link("label", label);
				}
				ref nextstep = label.size() ? labels[label] : makeconcept();
				if (action == "?" || action == "pick") {
					string cond;
					ss >> cond;
					if (!values.count(cond)) {
						throw makeconcept().link(is, "condition-must-be-in-context", condition, cond);
					}
					laststep = ref("set-condition-step")(nextstep, laststep, cond, makeconcept().link("anything", "nothing"));
				} else {
					// otherwise, action is an action, and we have to read the right number of args
					if (laststep.isa("condition-step")) {
						if (ref("condition-step-get")(laststep, "anything") != "nothing") {
							if (label.size() == 0) {
								throw makeconcept().link(is, "condition-already-has-anything-branch-and-steps-follow", condition, laststep);
							}
						} else {
							ref("condition-step-set")(laststep, "anything", nextstep);
						}
					} else if (laststep != nothing) {
						laststep.link("next-step", nextstep);
					}
					ref habit = values.count(action) ? action : lookup(action);
					ref order = makehabitinformationorder(habit);
					ref neededmap = makeconcept();
					ref knownmap = makeconcept();
					string linerest;
				       	std::getline(ss, linerest);
					stringstream ss2(linerest);
					ref stream2 = alloc(intellect::level0::concepts::allocations(), (istream*)&ss2);
					for (ref arg : order.getAll("information-order")) {
						ref argname = parsevalue(stream2);
						if (!ss2) { break; }
						// depending on whether argname is in localcontext, pass to neededmap or knownmap.  also parse literal strings.
						if (values.count(argname.name())) {
							neededmap.link(arg, argname);
						} else {
							knownmap.link(arg, lookup(argname));
						}
					}
					conceptunmake(order);
					dealloc(stream2, intellect::level0::concepts::allocations());
					ref mademap = makeconcept();
					if (result.size()) {
						mademap.link("result", values.count(result) ? result : lookup(result));
					}
					ref("set-context-step")(nextstep, "nothing", knownmap, neededmap, mademap, habit);
					laststep = nextstep;
				}
			} 
		} else {
			throw ref("parse-error").link("stream", stream, "unexpected-word", cmd);
		}
	}
}

int main()
{
	createhabits();
	decls(dump, name, of, is, nothing);
	ahabit(bootstrap-lookup, ((text, t)),
	{
		result = bootstraplookup(t);
	});
	ahabit(name-of, ((concept, c)),
	{
		if (c.linked(name)) {
			result = c.get(name);
		} else {
			for (auto & group : c.getAll(is)) {
				result = (name-of)(group);
				if (result != nothing) { break; }
			}
			std::stringstream ss;
			if (result != nothing) {
				ss << result.val<std::string>();
			} else {
				ss << "unnamed";
			}
			ss << "-" << std::hex << (size_t)(c.ptr());
			if (!c.isa(name)) {
				intellect::level1::givename(c, ss.str());
				result = c.get(name);
			} else {
				result = nothing;
			}
		}
	});
	ahabit(write-name, ((concept, c)),
	{
		ref n = (name-of)(c);
		std::cout << (n.hasval() ? n.val<std::string>() : "UNNAMED");
	});
	ahabit(write-endl, (),
	{
		std::cout << std::endl;
	});
	ahabit(in-set, ((concept, c)),
	{
		result = linked("the-set", c);
	});
	ahabit(put-in-set, ((concept, c)),
	{
		link("the-set", c, true);
	});
	// dump changes to expand from a different node
	
	string script = "simpleparser bootstrap-lookup \
information dump group linkset\n\
information dump-expand group linkset\n\
when dump-expand [\n\
	set link-entry make-concept\n\
	first-link-entry link-entry group\n\
	loop:\n\
		= has-target linked link-entry 'target'\n\
		? has-target if 'false' return.\n\
		= link-target get link-entry 'target'\n\
		dump link-target linkset\n\
		next-link-entry link-entry\n\
		loop.\n\
]\n\
when dump [\n\
	= is-in-set in-set group\n\
	? is-in-set if true return.\n\
	put-in-set group\n\
	write-name group\n\
	write-name ':'\n\
	write-endl\n\
	set link-entry make-concept\n\
	first-link-entry link-entry group\n\
	loop1:\n\
		= has-target linked link-entry 'target'\n\
		? has-target if 'false' done1.\n\
		write-name '  '\n\
		= link-type get link-entry 'type'\n\
		write-name link-type\n\
		write-name ': '\n\
		= link-target get link-entry 'target'\n\
		write-name link-target\n\
		write-endl\n\
		next-link-entry link-entry\n\
		loop1.\n\
	done1:\n\
	first-link-entry link-entry group\n\
	loop2:\n\
		set has-target linked link-entry 'target'\n\
		pick has-target if false done2.\n\
		set link-type get link-entry 'type'\n\
		set link-target get link-entry 'target'\n\
		set basic-follow linked linkset 'follow' linktype\n\
		pick basic-follow if 'false' next2.\n\
		'dump' link-target\n\
		next2:\n\
		set expand linked linkset 'expand' linktype\n\
		pick expand if 'false' next2b.\n\
		dump-expand link-target linkset\n\
		next2b:\n\
		next-link-entry link-entry\n\
		loop2.\n\
	done2:\n\
	concept-unmake context 'link-entry'\n\
]";
	std::stringstream ss(script);
	std::string simpleparsername;
	ss >> simpleparsername;
	ref ssr = alloc(intellect::level0::concepts::allocations(), (istream*)&ss);
	parse(ssr);
	dealloc(ssr, intellect::level0::concepts::allocations());
	// proposal is now to use raw c++ calls as was done originally
	// and have that code be the files. O_O that might have been easier.

	
	// propose we make script interpreter. much faster in longer term.
#if 0
	
	// I guess I'd better code dump as a behavior.
	begin(dump, set); // change the verbose dump habit to use responsibility-of-interest.
		// hey ask the opencoggers if they have a syntax sugar library
		// they must if they built a whole robot
		// 	no reply on opencog chat.  could check hansen robotics repo or ml.
		assign(found-in-set, in-set, concept);
		label(condinset) cond(found-in-set);
			label(ifnotinset)
		 	step(write-name, concept);
			condadd(condinset, false, ifnotinset);
			step(write-name, `:);
			step(write-endl);
			step(put-in-set, concept);
			// iterate link entries!
			assign(link-entry, make-first-link-entry, concept);
			label(whilelabel) assign(has-target, linked, link-entry, `target);
			label(whilecond) cond(has-target);
				label(ifhastarget)
				step(write-name, `  `);
				condadd(whilecond, true, ifhastarget);
				assign(link-type, get, link-entry, `type);
				step(write-name, link-type);
				step(write-name, `: `);
				assign(link-target, get, link-entry, `target);
				step(write-name, link-target);
				step(write-endl);
				step(next-link-entry, link-entry);
				wire(whilelabel);
			rewire(whilecond);
			step(concept-unmake, context, `link-entry);
			//std::cerr << intellect::level1::dump(whilecond, makeconcept(), makeconcept()) << std::endl;
			assign(link-entry, make-first-link-entry, concept);
			label(whilelabel2) assign(has-target, linked, link-entry, `target);
			label(whilecond2) cond(has-target);
				label(ifhastarget2)
				assign(link-target, get, link-entry, `target);
				condadd(whilecond2, true, ifhastarget2);
				// IT'S OKAY THAT THIS IS MESSY
				// ALL IT NEEDS IS TO WORK
				// (but might have saved an hour or two debugging if interface had been higher level)
				step(dump, link-target);
				step(next-link-entry, link-entry);
				wire(whilelabel2);
			rewire(whilecond2);
			step(concept-unmake, context, `link-entry);
		rewire(condinset);
	end(dump);
#endif

	// make sure other interests are included.  delta currently at topmost point in memory.
	// not sure how to interpret.
	ref memoryfile("memory-000.txt");


	ref linksofinterest = makeconcept();
	linksofinterest.link(
			"follow", "next-step",
			"follow", "needed-map",
			"follow", "made-map",
			"follow", "known",
			"follow", "translation",
			"follow", "next-steps",
			"expand", "next-steps");

	// structure of steps
	// [action] [parameter->value ...] repeat
	// 	[active memory too small to resolve concern around shape of literals in context]
	//	make value quoted, like it already is.
	//	[parameter->`value]
	//
	// steps written can just be
	// action value value value
	//
	// a definition of a list of steps
	// internal structure (ternary nodes)
	// (name arg->arg1 arg->arg2 arg->arg3)
	// 	ohhhhh hmm
	// 	so, if it isn't simplified, there's room for adding more information to stuff.  like, arg-must-be-animal
	// 		probably wnt arg1 replaceable with [is->arg name->arg1]
	// 			can make a norm for general expandable structures
	// 			value->
	// 			will need strucure definitions to do it really usefully though
	// 			is->arg
	// 			arg->
	// 				we want to tag it with additional stuff, optionally
	// written structure
	// steps name arg1 arg2 arg3 arg4
	// {
	// 	label: action arg1 arg2 arg3
	// 	action arg1 arg2 arg3
	// }
	//
	// hmm
	//
	// let's try to make it c code, how about?  until we can summarize better?
	//
	// walk-to street
	//
	// this is faster to implement. doesn't matter how it looks.
	//
	// when walk-to destination [
	//   START: intermediary = get-middle origin destination
	//   // each step could also be a condition that branches to other steps
	//   pick intermediary [
	//   	school [ START ]
	//   	desk [
	//   		stand-up
	//   		leave-room
	//   	]
	//   ]
	// ]
	// it might make sense to use yaml or something
	// is easier.  rmember to implement comments.  maybe #[ name free-text ] , dunno
	// what we want is links. [ name type target type target ] seems good.
	// [ ] might open a context with local names, eventually
	//
	// when dump concept [
	// 	= found-in-set in-set concept
	// 	? found-in-set true return <-- return is label at end
	// 	write-name concept
	// 	write-name ':'
	// 	write-endl
	// 	put-in-set concept
	// 	link-entry = make-first-link-entry concept
	// 	while-1:
	// 		has-target = linked link-entry 'target' // propose '' can force something to be global.  is also for clarity.
	// 		has-target if false break-1
	//	 	write-name '  '
	//	 	link-type = get link-entry 'type'
	//	 	write-name link-type
	//	 	// we could expand to write-name [ get link-entry 'type' ]
	//	 	// but just get it working for now
	//	 	write-name ': '
	//	 	link-target = get link-entry 'target'
	//	 	write-name link-target
	//	 	write-endl
	//	 	next-link-entry link-entry
	//		while-1
	//	break-1:
	//	concept-unmake context 'link-entry'
	//	link-entry = make-first-link-entry concept
	//	while-2:
	//		has-target = linked link-entry 'target'
	//		has-target if false break-2
	//		link-target = get link-entry 'target'
	//		self link-target
	//		next-link-entry link-entry
	//		while-2
	//	break-2:
	//	concept-unmake context 'link-entry'
	// ]
	//
	// 	norm: next-step always, unless action is label.  then next-step is label.
	// 	unresolved concern: want to write habits to do parsing
	// 		auxiliary files, can propose to rewrite main file?
	// 			good enough for now.
	// 	additional unresolved concern: want whole file parseable as a script
	// 		okay the outer command is 'when dump concept [ ... ]'
	// 		i guess that means we want [] to make a lot of symbols into 1 symbol.
	// 		then when is a function that takes 3 symbols
	// 			no, when was defined differently.
	// 			instead we would do when dump [ concept ] [ ... ]
	// 			because could be n args
	// 		oh.  that looks okay, though.
	// 		how about file is made of commands that do parsing.
	// 		'when' then spawns a parser named 'when'.  it can process stream however
	// 		it desires.
	// 			then deserializers, desummarizers need to parse streams
	// 			want summarized data without streams, internally?
	// 				ummm wouldn't worry about it
	// 	propose file is made of lists of symbols, a little
	// 	[ when dump concept [ ... ] ] [ etc ]
	// 	[when dump concept [...]] [etc]
	//		generalization is valued ...
	//	i like the list approach.
	//	comments can be treated special
	//	nah comments can become [comment free-text]
	//		so we partly propose implementing lisp with brackets
	//		to speed typing , removes shift key
	//	functions get list of symbols passed, and string rep of all for comment preservation
	//	
	// 	binary form likely resolves concern.
	// 		proposal will be that habit can replace if it will always be able to
	// 		reproduce.
	// ]
	//
	// internal structure could be simple too.
	// 	hmm want tags.  okay, so arguments are objects?
	// 		since things are ternary, we could use the link 'type' to store data
	// 		oh huh
	// 		so, 'first-step' is special, but everything else is an arg.
	// 		no, this is what karl's 'is' is for.  you make the type store extra data, but if it 'is' an arg,
	// 		or 'is' something that is an arg, it counts as an arg.
	// 		he wanted to implement a way to lookup types by eveyrthing something is, which is easy to do by
	// 		adding an index of categories to level-0.
	// 		or the system could do it later.
	//
	// so, if oyu want to rewrite steplists, maybe [arg->arg1 arg->arg2 arg->arg3 first->[action->action arg1->source arg2->source arg3->`source]
	// 	propose using strings to indicate information, rather than node structure.
	//		this will make a contextual index of word meaning
	//		`source doesn't refer to a unique concept.  it means you can only refer to things with names.
	//			everything has a name inside this kind of habit.
	//			i suppose ...
	//
	//   	how scripts look.  instead of while/if, are doing 'condition'
	//   	influences imply above block is preferred.  was leaning towards c++ code as below, takes longer
	//
	// ref name(ref arg1, ref arg2, ref arg3)
	// {
	// 	while() {}
	// 	if() {}
	// }
	//
	// takes a lot more parsing work, but should be okay
	// 
	/*
	// for dump, we make a list of contextual actions
	ahabit(dump, ((concept, c)),
	{
		static std::set<ref> dumped;
		if (dumped.count(c) == 0) {
			std::cout << (name-of)(c).val<std::string>() << ":" << std::endl;
			dumped.insert(c);
			ref le = (make-concept)().act(know-is-first-link-entry, c);
			while (le.linked(target)) {
				std::cout << "  " << (name-of)(le.get(type)).val<std::string>() << ": " << (name-of)(le.get(target)).val<std::string>() << std::endl;
				(next-link-entry)(le);
			}
			(know-is-first-link-entry)(le, c);
			while (le.linked(target)) {
				(dump)(le.get(target));
				(next-link-entry)(le);
			}
			(unmake-concept)(le);
		}
	});
	*/
	try {
		std::cerr << intellect::level1::dump(dump, makeconcept()) << std::endl;
		dump(dump, linksofinterest);
#undef ref
	} catch(intellect::level1::ref r) {
		std::cerr << intellect::level1::ref(r.ptr()).dump(makeconcept()) << std::endl;
		for (auto i : r.getAll("is")) {
			std::cerr << i.name() << std::endl;
		}
		throw;
	}
}