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source: src/ResolvExpr/SatisfyAssertions.cpp @ 62c6cfa

Last change on this file since 62c6cfa was da4a570, checked in by caparsons <caparson@…>, 12 months ago
commented out some debugging code
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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// SatisfyAssertions.cpp --
8	//
9	// Author : Aaron B. Moss
10	// Created On : Mon Jun 10 17:45:00 2019
11	// Last Modified By : Andrew Beach
12	// Last Modified On : Tue Oct 1 13:56:00 2019
13	// Update Count : 2
14	//
15
16	#include "SatisfyAssertions.hpp"
17
18	#include <iostream>
19	#include <algorithm>
20	#include <cassert>
21	#include <sstream>
22	#include <string>
23	#include <unordered_map>
24	#include <vector>
25
26	#include "AdjustExprType.hpp"
27	#include "Candidate.hpp"
28	#include "CandidateFinder.hpp"
29	#include "CommonType.hpp"
30	#include "Cost.h"
31	#include "RenameVars.h"
32	#include "SpecCost.hpp"
33	#include "typeops.h"
34	#include "Unify.h"
35	#include "AST/Decl.hpp"
36	#include "AST/Expr.hpp"
37	#include "AST/Node.hpp"
38	#include "AST/Pass.hpp"
39	#include "AST/Print.hpp"
40	#include "AST/SymbolTable.hpp"
41	#include "AST/TypeEnvironment.hpp"
42	#include "FindOpenVars.h"
43	#include "Common/FilterCombos.h"
44	#include "Common/Indenter.h"
45	#include "GenPoly/GenPoly.h"
46	#include "SymTab/Mangler.h"
47
48
49
50	namespace ResolvExpr {
51
52	// in CandidateFinder.cpp; unique ID for assertion satisfaction
53	extern UniqueId globalResnSlot;
54
55	namespace {
56	/// Post-unification assertion satisfaction candidate
57	struct AssnCandidate {
58	ast::SymbolTable::IdData cdata; ///< Satisfying declaration
59	ast::ptr< ast::Type > adjType; ///< Satisfying type
60	ast::TypeEnvironment env; ///< Post-unification environment
61	ast::AssertionSet have; ///< Post-unification have-set
62	ast::AssertionSet need; ///< Post-unification need-set
63	ast::OpenVarSet open; ///< Post-unification open-var-set
64	ast::UniqueId resnSlot; ///< Slot for any recursive assertion IDs
65
66	AssnCandidate(
67	const ast::SymbolTable::IdData c, const ast::Type * at, ast::TypeEnvironment && e,
68	ast::AssertionSet && h, ast::AssertionSet && n, ast::OpenVarSet && o, ast::UniqueId rs )
69	: cdata( c ), adjType( at ), env( std::move( e ) ), have( std::move( h ) ),
70	need( std::move( n ) ), open( std::move( o ) ), resnSlot( rs ) {
71	if (!have.empty()) {
72	// std::cerr << c.id->location << ':' << c.id->name << std::endl; // I think this was debugging code so I commented it
73	}
74	}
75	};
76
77	/// List of assertion satisfaction candidates
78	using AssnCandidateList = std::vector< AssnCandidate >;
79
80	/// Reference to a single deferred item
81	struct DeferRef {
82	const ast::VariableExpr * expr;
83	const ast::AssertionSetValue & info;
84	const AssnCandidate & match;
85	};
86
87	/// Wrapper for the deferred items from a single assertion satisfaction.
88	/// Acts like an indexed list of DeferRef
89	struct DeferItem {
90	const ast::VariableExpr * expr;
91	const ast::AssertionSetValue & info;
92	AssnCandidateList matches;
93
94	DeferItem(
95	const ast::VariableExpr * d, const ast::AssertionSetValue & i, AssnCandidateList && ms )
96	: expr( d ), info( i ), matches( std::move( ms ) ) {}
97
98	bool empty() const { return matches.empty(); }
99
100	AssnCandidateList::size_type size() const { return matches.size(); }
101
102	DeferRef operator[] ( unsigned i ) const { return { expr, info, matches[i] }; }
103	};
104
105	/// List of deferred satisfaction items
106	using DeferList = std::vector< DeferItem >;
107
108	/// Set of assertion satisfactions, grouped by resolution ID
109	using InferCache = std::unordered_map< ast::UniqueId, ast::InferredParams >;
110
111	/// Lexicographically-ordered vector of costs.
112	/// Lexicographic order comes from default operator< on std::vector.
113	using CostVec = std::vector< Cost >;
114
115	/// Flag for state iteration
116	enum IterateFlag { IterateState };
117
118	/// Intermediate state for satisfying a set of assertions
119	struct SatState {
120	CandidateRef cand; ///< Candidate assertion is rooted on
121	ast::AssertionList need; ///< Assertions to find
122	ast::AssertionSet newNeed; ///< Recursive assertions from current satisfied assertions
123	DeferList deferred; ///< Deferred matches
124	InferCache inferred; ///< Cache of already-inferred assertions
125	CostVec costs; ///< Disambiguating costs of recursive assertion satisfaction
126	ast::SymbolTable symtab; ///< Name lookup (depends on previous assertions)
127
128	/// Initial satisfaction state for a candidate
129	SatState( CandidateRef & c, const ast::SymbolTable & syms )
130	: cand( c ), need(), newNeed(), deferred(), inferred(), costs{ Cost::zero },
131	symtab( syms ) { need.swap( c->need ); }
132
133	/// Update satisfaction state for next step after previous state
134	SatState( SatState && o, IterateFlag )
135	: cand( std::move( o.cand ) ), need( o.newNeed.begin(), o.newNeed.end() ), newNeed(),
136	deferred(), inferred( std::move( o.inferred ) ), costs( std::move( o.costs ) ),
137	symtab( o.symtab ) { costs.emplace_back( Cost::zero ); }
138
139	/// Field-wise next step constructor
140	SatState(
141	CandidateRef && c, ast::AssertionSet && nn, InferCache && i, CostVec && cs,
142	ast::SymbolTable && syms )
143	: cand( std::move( c ) ), need( nn.begin(), nn.end() ), newNeed(), deferred(),
144	inferred( std::move( i ) ), costs( std::move( cs ) ), symtab( std::move( syms ) )
145	{ costs.emplace_back( Cost::zero ); }
146	};
147
148	enum AssertionResult {Fail, Skip, Success} ;
149
150	/// Binds a single assertion, updating satisfaction state
151	void bindAssertion(
152	const ast::VariableExpr * expr, const ast::AssertionSetValue & info, CandidateRef & cand,
153	AssnCandidate & match, InferCache & inferred
154	) {
155	const ast::DeclWithType * candidate = match.cdata.id;
156	assertf( candidate->uniqueId,
157	"Assertion candidate does not have a unique ID: %s", toString( candidate ).c_str() );
158
159	ast::Expr * varExpr = match.cdata.combine( cand->expr->location, cand->cost );
160	varExpr->result = match.adjType;
161	if ( match.resnSlot ) { varExpr->inferred.resnSlots().emplace_back( match.resnSlot ); }
162
163	// place newly-inferred assertion in proper location in cache
164	inferred[ info.resnSlot ][ expr->var->uniqueId ] = ast::ParamEntry{
165	candidate->uniqueId, candidate, match.adjType, expr->result, varExpr };
166	}
167
168	/// Satisfy a single assertion
169	AssertionResult satisfyAssertion( ast::AssertionList::value_type & assn, SatState & sat, bool skipUnbound = false) {
170	// skip unused assertions
171	// static unsigned int cnt = 0; // I think this was debugging code so I commented it
172	if ( ! assn.second.isUsed ) return AssertionResult::Success;
173
174	// if (assn.first->var->name[1] == '\|') std::cerr << ++cnt << std::endl; // I think this was debugging code so I commented it
175
176	// find candidates that unify with the desired type
177	AssnCandidateList matches, inexactMatches;
178
179	std::vector<ast::SymbolTable::IdData> candidates;
180	auto kind = ast::SymbolTable::getSpecialFunctionKind(assn.first->var->name);
181	if (kind != ast::SymbolTable::SpecialFunctionKind::NUMBER_OF_KINDS) {
182	// prefilter special decls by argument type, if already known
183	ast::ptr<ast::Type> thisArgType = assn.first->result.strict_as<ast::PointerType>()->base
184	.strict_as<ast::FunctionType>()->params[0]
185	.strict_as<ast::ReferenceType>()->base;
186	// sat.cand->env.apply(thisArgType);
187
188	if (auto inst = thisArgType.as<ast::TypeInstType>()) {
189	auto cls = sat.cand->env.lookup(*inst);
190	if (cls && cls->bound) thisArgType = cls->bound;
191	}
192
193	std::string otypeKey = "";
194	if (thisArgType.as<ast::PointerType>()) otypeKey = Mangle::Encoding::pointer;
195	else if (!isUnboundType(thisArgType)) otypeKey = Mangle::mangle(thisArgType, Mangle::Type \| Mangle::NoGenericParams);
196	else if (skipUnbound) return AssertionResult::Skip;
197
198	candidates = sat.symtab.specialLookupId(kind, otypeKey);
199	}
200	else {
201	candidates = sat.symtab.lookupId(assn.first->var->name);
202	}
203	for ( const ast::SymbolTable::IdData & cdata : candidates ) {
204	const ast::DeclWithType * candidate = cdata.id;
205
206	// ignore deleted candidates.
207	// NOTE: this behavior is different from main resolver.
208	// further investigations might be needed to determine
209	// if we should implement the same rule here
210	// (i.e. error if unique best match is deleted)
211	if (candidate->isDeleted && candidate->linkage == ast::Linkage::AutoGen) continue;
212
213	// build independent unification context for candidate
214	ast::AssertionSet have, newNeed;
215	ast::TypeEnvironment newEnv{ sat.cand->env };
216	ast::OpenVarSet newOpen{ sat.cand->open };
217	ast::ptr< ast::Type > toType = assn.first->result;
218	ast::ptr< ast::Type > adjType =
219	renameTyVars( adjustExprType( candidate->get_type(), newEnv, sat.symtab ), GEN_USAGE, false );
220
221	// only keep candidates which unify
222
223	ast::OpenVarSet closed;
224	// findOpenVars( toType, newOpen, closed, newNeed, have, FirstClosed );
225	findOpenVars( adjType, newOpen, closed, newNeed, have, newEnv, FirstOpen );
226	ast::TypeEnvironment tempNewEnv {newEnv};
227
228	if ( unifyExact( toType, adjType, tempNewEnv, newNeed, have, newOpen, WidenMode {true, true} ) ) {
229	// set up binding slot for recursive assertions
230	ast::UniqueId crntResnSlot = 0;
231	if ( ! newNeed.empty() ) {
232	crntResnSlot = ++globalResnSlot;
233	for ( auto & a : newNeed ) { a.second.resnSlot = crntResnSlot; }
234	}
235
236	matches.emplace_back(
237	cdata, adjType, std::move( tempNewEnv ), std::move( have ), std::move( newNeed ),
238	std::move( newOpen ), crntResnSlot );
239	}
240	else if ( matches.empty() ) {
241	// restore invalidated env
242	// newEnv = sat.cand->env;
243	// newNeed.clear();
244	if ( auto c = commonType( toType, adjType, newEnv, newNeed, have, newOpen, WidenMode {true, true} ) ) {
245	// set up binding slot for recursive assertions
246	ast::UniqueId crntResnSlot = 0;
247	if ( ! newNeed.empty() ) {
248	crntResnSlot = ++globalResnSlot;
249	for ( auto & a : newNeed ) { a.second.resnSlot = crntResnSlot; }
250	}
251
252	inexactMatches.emplace_back(
253	cdata, adjType, std::move( newEnv ), std::move( have ), std::move( newNeed ),
254	std::move( newOpen ), crntResnSlot );
255	}
256	}
257	}
258
259	// break if no satisfying match
260	if ( matches.empty() ) matches = std::move(inexactMatches);
261	if ( matches.empty() ) return AssertionResult::Fail;
262
263	// defer if too many satisfying matches
264	if ( matches.size() > 1 ) {
265	sat.deferred.emplace_back( assn.first, assn.second, std::move( matches ) );
266	return AssertionResult::Success;
267	}
268
269	// otherwise bind unique match in ongoing scope
270	AssnCandidate & match = matches.front();
271	// addToSymbolTable( match.have, sat.symtab );
272	sat.newNeed.insert( match.need.begin(), match.need.end() );
273	sat.cand->env = std::move( match.env );
274	sat.cand->open = std::move( match.open );
275
276	bindAssertion( assn.first, assn.second, sat.cand, match, sat.inferred );
277	return AssertionResult::Success;
278	}
279
280	/// Map of candidate return types to recursive assertion satisfaction costs
281	using PruneMap = std::unordered_map< std::string, CostVec >;
282
283	/// Gets the pruning key for a candidate (derived from environment-adjusted return type)
284	std::string pruneKey( const Candidate & cand ) {
285	ast::ptr< ast::Type > resType = cand.expr->result;
286	cand.env.apply( resType );
287	return Mangle::mangleType( resType );
288	}
289
290	/// Associates inferred parameters with an expression
291	struct InferMatcher final {
292	InferCache & inferred;
293
294	InferMatcher( InferCache & inferred ) : inferred( inferred ) {}
295
296	const ast::Expr * postvisit( const ast::Expr * expr ) {
297	// Skip if no slots to find
298	if ( !expr->inferred.hasSlots() ) return expr;
299	// if ( expr->inferred.mode != ast::Expr::InferUnion::Slots ) return expr;
300	std::vector<UniqueId> missingSlots;
301	// find inferred parameters for resolution slots
302	ast::InferredParams * newInferred = new ast::InferredParams();
303	for ( UniqueId slot : expr->inferred.resnSlots() ) {
304	// fail if no matching assertions found
305	auto it = inferred.find( slot );
306	if ( it == inferred.end() ) {
307	// std::cerr << "missing assertion " << slot << std::endl;
308	missingSlots.push_back(slot);
309	continue;
310	}
311
312	// place inferred parameters into new map
313	for ( auto & entry : it->second ) {
314	// recurse on inferParams of resolved expressions
315	entry.second.expr = postvisit( entry.second.expr );
316	auto res = newInferred->emplace( entry );
317	assert( res.second && "all assertions newly placed" );
318	}
319	}
320
321	ast::Expr * ret = mutate( expr );
322	ret->inferred.set_inferParams( newInferred );
323	if (!missingSlots.empty()) ret->inferred.resnSlots() = missingSlots;
324	return ret;
325	}
326	};
327
328	/// Replace ResnSlots with InferParams and add alternative to output list, if it meets pruning
329	/// threshold.
330	void finalizeAssertions(
331	CandidateRef & cand, InferCache & inferred, PruneMap & thresholds, CostVec && costs,
332	CandidateList & out
333	) {
334	// prune if cheaper alternative for same key has already been generated
335	std::string key = pruneKey( *cand );
336	auto it = thresholds.find( key );
337	if ( it != thresholds.end() ) {
338	if ( it->second < costs ) return;
339	} else {
340	thresholds.emplace_hint( it, key, std::move( costs ) );
341	}
342
343	// replace resolution slots with inferred parameters, add to output
344	ast::Pass< InferMatcher > matcher{ inferred };
345	cand->expr = cand->expr->accept( matcher );
346	out.emplace_back( cand );
347	}
348
349	/// Combo iterator that combines candidates into an output list, merging their environments.
350	/// Rejects an appended candidate if environments cannot be merged. See `Common/FilterCombos.h`
351	/// for description of "combo iterator".
352	class CandidateEnvMerger {
353	/// Current list of merged candidates
354	std::vector< DeferRef > crnt;
355	/// Stack of environments to support backtracking
356	std::vector< ast::TypeEnvironment > envs;
357	/// Stack of open variables to support backtracking
358	std::vector< ast::OpenVarSet > opens;
359	/// Symbol table to use for merges
360	const ast::SymbolTable & symtab;
361
362	public:
363	/// The merged environment/open variables and the list of candidates
364	struct OutType {
365	ast::TypeEnvironment env;
366	ast::OpenVarSet open;
367	std::vector< DeferRef > assns;
368	Cost cost;
369
370	OutType(
371	const ast::TypeEnvironment & e, const ast::OpenVarSet & o,
372	const std::vector< DeferRef > & as, const ast::SymbolTable & symtab )
373	: env( e ), open( o ), assns( as ), cost( Cost::zero ) {
374	// compute combined conversion cost
375	for ( const DeferRef & assn : assns ) {
376	// compute conversion cost from satisfying decl to assertion
377	cost += computeConversionCost(
378	assn.match.adjType, assn.expr->result, false, symtab, env );
379
380	// mark vars+specialization on function-type assertions
381	const ast::FunctionType * func =
382	GenPoly::getFunctionType( assn.match.cdata.id->get_type() );
383	if ( ! func ) continue;
384
385	for ( const auto & param : func->params ) {
386	cost.decSpec( specCost( param ) );
387	}
388
389	cost.incVar( func->forall.size() );
390
391	cost.decSpec( func->assertions.size() );
392	}
393	}
394
395	bool operator< ( const OutType & o ) const { return cost < o.cost; }
396	};
397
398	CandidateEnvMerger(
399	const ast::TypeEnvironment & env, const ast::OpenVarSet & open,
400	const ast::SymbolTable & syms )
401	: crnt(), envs{ env }, opens{ open }, symtab( syms ) {}
402
403	bool append( DeferRef i ) {
404	ast::TypeEnvironment env = envs.back();
405	ast::OpenVarSet open = opens.back();
406	mergeOpenVars( open, i.match.open );
407
408	if ( ! env.combine( i.match.env, open ) ) return false;
409
410	crnt.emplace_back( i );
411	envs.emplace_back( std::move( env ) );
412	opens.emplace_back( std::move( open ) );
413	return true;
414	}
415
416	void backtrack() {
417	crnt.pop_back();
418	envs.pop_back();
419	opens.pop_back();
420	}
421
422	OutType finalize() { return { envs.back(), opens.back(), crnt, symtab }; }
423	};
424
425	/// Limit to depth of recursion of assertion satisfaction
426	static const int recursionLimit = 8;
427	/// Maximum number of simultaneously-deferred assertions to attempt concurrent satisfaction of
428	static const int deferLimit = 10;
429	} // anonymous namespace
430
431	void satisfyAssertions(
432	CandidateRef & cand, const ast::SymbolTable & symtab, CandidateList & out,
433	std::vector<std::string> & errors
434	) {
435	// finish early if no assertions to satisfy
436	if ( cand->need.empty() ) {
437	out.emplace_back( cand );
438	return;
439	}
440
441	// build list of possible combinations of satisfying declarations
442	std::vector< SatState > sats{ SatState{ cand, symtab } };
443	std::vector< SatState > nextSats{};
444
445	// pruning thresholds by result type of output candidates.
446	// Candidates should be generated in sorted order, so no need to retroactively prune
447	PruneMap thresholds;
448
449	// satisfy assertions in breadth-first order over the recursion tree of assertion satisfaction.
450	// Stop recursion at a limited number of levels deep to avoid infinite loops.
451	for ( unsigned level = 0; level < recursionLimit; ++level ) {
452	// for each current mutually-compatible set of assertions
453	for ( SatState & sat : sats ) {
454	// stop this branch if a better option is already found
455	auto it = thresholds.find( pruneKey( *sat.cand ) );
456	if ( it != thresholds.end() && it->second < sat.costs ) goto nextSat;
457
458	// should a limit be imposed? worst case here is O(n^2) but very unlikely to happen.
459
460	for (unsigned resetCount = 0; ; ++resetCount) {
461	ast::AssertionList next;
462	// make initial pass at matching assertions
463	for ( auto & assn : sat.need ) {
464	resetTyVarRenaming();
465	// fail early if any assertion is not satisfiable
466	auto result = satisfyAssertion( assn, sat, !next.empty() );
467	if ( result == AssertionResult::Fail ) {
468	Indenter tabs{ 3 };
469	std::ostringstream ss;
470	ss << tabs << "Unsatisfiable alternative:\n";
471	print( ss, *sat.cand, ++tabs );
472	ss << (tabs-1) << "Could not satisfy assertion:\n";
473	ast::print( ss, assn.first, tabs );
474
475	errors.emplace_back( ss.str() );
476	goto nextSat;
477	}
478	else if ( result == AssertionResult::Skip ) {
479	next.emplace_back(assn);
480	// goto nextSat;
481	}
482	}
483	// success
484	if (next.empty()) break;
485
486	sat.need = std::move(next);
487	}
488
489	if ( sat.deferred.empty() ) {
490	// either add successful match or push back next state
491	if ( sat.newNeed.empty() ) {
492	finalizeAssertions(
493	sat.cand, sat.inferred, thresholds, std::move( sat.costs ), out );
494	} else {
495	nextSats.emplace_back( std::move( sat ), IterateState );
496	}
497	} else if ( sat.deferred.size() > deferLimit ) {
498	// too many deferred assertions to attempt mutual compatibility
499	Indenter tabs{ 3 };
500	std::ostringstream ss;
501	ss << tabs << "Unsatisfiable alternative:\n";
502	print( ss, *sat.cand, ++tabs );
503	ss << (tabs-1) << "Too many non-unique satisfying assignments for assertions:\n";
504	for ( const auto & d : sat.deferred ) {
505	ast::print( ss, d.expr, tabs );
506	}
507
508	errors.emplace_back( ss.str() );
509	goto nextSat;
510	} else {
511	// combine deferred assertions by mutual compatibility
512	std::vector< CandidateEnvMerger::OutType > compatible = filterCombos(
513	sat.deferred, CandidateEnvMerger{ sat.cand->env, sat.cand->open, sat.symtab } );
514
515	// fail early if no mutually-compatible assertion satisfaction
516	if ( compatible.empty() ) {
517	Indenter tabs{ 3 };
518	std::ostringstream ss;
519	ss << tabs << "Unsatisfiable alternative:\n";
520	print( ss, *sat.cand, ++tabs );
521	ss << (tabs-1) << "No mutually-compatible satisfaction for assertions:\n";
522	for ( const auto& d : sat.deferred ) {
523	ast::print( ss, d.expr, tabs );
524	}
525
526	errors.emplace_back( ss.str() );
527	goto nextSat;
528	}
529
530	// sort by cost (for overall pruning order)
531	std::sort( compatible.begin(), compatible.end() );
532
533	// process mutually-compatible combinations
534	for ( auto & compat : compatible ) {
535	// set up next satisfaction state
536	CandidateRef nextCand = std::make_shared<Candidate>(
537	sat.cand->expr, std::move( compat.env ), std::move( compat.open ),
538	ast::AssertionSet{} /* need moved into satisfaction state */,
539	sat.cand->cost );
540
541	ast::AssertionSet nextNewNeed{ sat.newNeed };
542	InferCache nextInferred{ sat.inferred };
543
544	CostVec nextCosts{ sat.costs };
545	nextCosts.back() += compat.cost;
546
547	ast::SymbolTable nextSymtab{ sat.symtab };
548
549	// add compatible assertions to new satisfaction state
550	for ( DeferRef r : compat.assns ) {
551	AssnCandidate match = r.match;
552	// addToSymbolTable( match.have, nextSymtab );
553	nextNewNeed.insert( match.need.begin(), match.need.end() );
554
555	bindAssertion( r.expr, r.info, nextCand, match, nextInferred );
556	}
557
558	// either add successful match or push back next state
559	if ( nextNewNeed.empty() ) {
560	finalizeAssertions(
561	nextCand, nextInferred, thresholds, std::move( nextCosts ), out );
562	} else {
563	nextSats.emplace_back(
564	std::move( nextCand ), std::move( nextNewNeed ),
565	std::move( nextInferred ), std::move( nextCosts ),
566	std::move( nextSymtab ) );
567	}
568	}
569	}
570	nextSat:; }
571
572	// finish or reset for next round
573	if ( nextSats.empty() ) return;
574	sats.swap( nextSats );
575	nextSats.clear();
576	}
577
578	// exceeded recursion limit if reaches here
579	if ( out.empty() ) {
580	SemanticError( cand->expr->location, "Too many recursive assertions" );
581	}
582	}
583
584	} // namespace ResolvExpr
585
586	// Local Variables: //
587	// tab-width: 4 //
588	// mode: c++ //
589	// compile-command: "make install" //
590	// End: //

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