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source: src/Tuples/TupleAssignment.cc @ 3a808fd

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Last change on this file since 3a808fd was d3b7937, checked in by Peter A. Buhr <pabuhr@…>, 9 years ago
building runtime library (first attempt)
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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	// TupleAssignment.cc --
8	//
9	// Author : Rodolfo G. Esteves
10	// Created On : Mon May 18 07:44:20 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Mon May 18 15:02:53 2015
13	// Update Count : 2
14	//
15
16	#include "ResolvExpr/AlternativeFinder.h"
17	#include "ResolvExpr/Alternative.h"
18	#include "ResolvExpr/typeops.h"
19	#include "SynTree/Expression.h"
20	#include "TupleAssignment.h"
21	#include "Common/SemanticError.h"
22
23	#include <functional>
24	#include <algorithm>
25	#include <iterator>
26	#include <iostream>
27	#include <cassert>
28	#include <set>
29
30	namespace Tuples {
31	TupleAssignSpotter::TupleAssignSpotter( ResolvExpr::AlternativeFinder *f = 0 )
32	: currentFinder(f), matcher(0), hasMatched( false ) {}
33
34	bool TupleAssignSpotter::pointsToTuple( Expression *expr ) {
35	// also check for function returning tuple of reference types
36	if (AddressExpr addr = dynamic_cast<AddressExpr >(expr) )
37	if ( isTuple(addr->get_arg() ) )
38	return true;
39	return false;
40	}
41
42	bool TupleAssignSpotter::isTupleVar( DeclarationWithType *decl ) {
43	if ( dynamic_cast<TupleType *>(decl->get_type()) )
44	return true;
45	return false;
46	}
47
48	bool TupleAssignSpotter::isTuple( Expression *expr, bool isRight ) {
49	// true if `expr' is an expression returning a tuple: tuple, tuple variable or MRV function
50	if ( ! expr ) return false;
51
52	if ( dynamic_cast<TupleExpr *>(expr) )
53	return true;
54	else if ( VariableExpr var = dynamic_cast<VariableExpr >(expr) ) {
55	if ( isTupleVar(var->get_var()) )
56	return true;
57	}
58
59	return false;
60	}
61
62	bool TupleAssignSpotter::match() {
63	assert ( matcher != 0 );
64
65	std::list< Expression * > new_assigns;
66	if ( ! matcher->match(new_assigns) )
67	return false;
68
69	if ( new_assigns.empty() ) return false;
70	/return /matcher->solve( new_assigns );
71	if ( dynamic_cast<TupleAssignSpotter::MultipleAssignMatcher *>( matcher ) ) {
72	// now resolve new assignments
73	std::list< Expression * > solved_assigns;
74	ResolvExpr::AltList solved_alts;
75	assert( currentFinder != 0 );
76
77	ResolvExpr::AltList current;
78	for ( std::list< Expression * >::iterator i = new_assigns.begin(); i != new_assigns.end(); ++i ) {
79	//try {
80	ResolvExpr::AlternativeFinder finder( currentFinder->get_indexer(), currentFinder->get_environ() );
81	finder.findWithAdjustment(*i);
82	// prune expressions that don't coincide with
83	ResolvExpr::AltList alts = finder.get_alternatives();
84	assert( alts.size() == 1 );
85	assert(alts.front().expr != 0 );
86	current.push_back( finder.get_alternatives().front() );
87	solved_assigns.push_back( alts.front().expr->clone() );
88	//solved_assigns.back()->print(std::cerr);
89	/*} catch( ... ) {
90	continue; // no reasonable alternative found
91	}*/
92	}
93	options.add_option( current );
94
95	return true;
96	} else { // mass assignment
97	//if ( new_assigns.empty() ) return false;
98	std::list< Expression * > solved_assigns;
99	ResolvExpr::AltList solved_alts;
100	assert( currentFinder != 0 );
101
102	ResolvExpr::AltList current;
103	if ( optMass.empty() ) {
104	for ( std::list< Expression * >::size_type i = 0; i != new_assigns.size(); ++i )
105	optMass.push_back( ResolvExpr::AltList() );
106	}
107	int cnt = 0;
108	for ( std::list< Expression * >::iterator i = new_assigns.begin(); i != new_assigns.end(); ++i, cnt++ ) {
109
110	ResolvExpr::AlternativeFinder finder( currentFinder->get_indexer(), currentFinder->get_environ() );
111	finder.findWithAdjustment(*i);
112	ResolvExpr::AltList alts = finder.get_alternatives();
113	assert( alts.size() == 1 );
114	assert(alts.front().expr != 0 );
115	current.push_back( finder.get_alternatives().front() );
116	optMass[cnt].push_back( finder.get_alternatives().front() );
117	solved_assigns.push_back( alts.front().expr->clone() );
118	}
119
120	return true;
121	}
122
123	return false;
124	}
125
126	bool TupleAssignSpotter::isMVR( Expression *expr ) {
127	if ( expr->get_results().size() > 1 ) {
128	// MVR processing
129	return true;
130	}
131	return false;
132	}
133
134	bool TupleAssignSpotter::isTupleAssignment( UntypedExpr * expr, std::list<ResolvExpr::AltList> &possibilities ) {
135	if ( NameExpr assgnop = dynamic_cast< NameExpr >(expr->get_function()) ) {
136
137	if ( assgnop->get_name() == std::string("?=?") ) {
138
139	for ( std::list<ResolvExpr::AltList>::iterator ali = possibilities.begin(); ali != possibilities.end(); ++ali ) {
140	assert( ali->size() == 2 );
141	ResolvExpr::AltList::iterator opit = ali->begin();
142	ResolvExpr::Alternative op1 = opit, op2 = (++opit);
143
144	if ( pointsToTuple(op1.expr) ) { // also handles tuple vars
145	if ( isTuple( op2.expr, true ) )
146	matcher = new MultipleAssignMatcher(op1.expr, op2.expr);
147	else if ( isMVR( op2.expr ) ) {
148	// handle MVR differently
149	} else
150	// mass assignment
151	matcher = new MassAssignMatcher(op1.expr, op2.expr);
152
153	std::list< ResolvExpr::AltList > options;
154	if ( match() )
155	/*
156	if ( hasMatched ) {
157	// throw SemanticError("Ambiguous tuple assignment");
158	} else {*/
159	// Matched for the first time
160	hasMatched = true;
161	/} /
162	} /* else if ( isTuple( op2 ) )
163	throw SemanticError("Inapplicable tuple assignment.");
164	*/
165	}
166
167	if ( hasMatched ) {
168	if ( dynamic_cast<TupleAssignSpotter::MultipleAssignMatcher *>( matcher ) ) {
169	//options.print( std::cerr );
170	std::list< ResolvExpr::AltList >best = options.get_best();
171	if ( best.size() == 1 ) {
172	std::list<Expression *> solved_assigns;
173	for ( ResolvExpr::AltList::iterator i = best.front().begin(); i != best.front().end(); ++i ) {
174	solved_assigns.push_back( i->expr );
175	}
176	/* assigning cost zero? */
177	currentFinder->get_alternatives().push_front( ResolvExpr::Alternative(new SolvedTupleExpr(solved_assigns/, SolvedTupleExpr::MULTIPLE/), currentFinder->get_environ(), ResolvExpr::Cost() ) );
178	}
179	} else {
180	assert( ! optMass.empty() );
181	ResolvExpr::AltList winners;
182	for ( std::vector< ResolvExpr::AltList >::iterator i = optMass.begin(); i != optMass.end(); ++i )
183	findMinCostAlt( i->begin(), i->end(), back_inserter(winners) );
184
185	std::list< Expression *> solved_assigns;
186	for ( ResolvExpr::AltList::iterator i = winners.begin(); i != winners.end(); ++i )
187	solved_assigns.push_back( i->expr );
188	currentFinder->get_alternatives().push_front( ResolvExpr::Alternative(new SolvedTupleExpr(solved_assigns/, SolvedTupleExpr::MASS/), currentFinder->get_environ(), ResolvExpr::Cost() ) );
189	}
190	}
191	}
192	}
193	return hasMatched;
194	}
195
196	void TupleAssignSpotter::Matcher::init( Expression _lhs, Expression _rhs ) {
197	lhs.clear();
198	if (AddressExpr addr = dynamic_cast<AddressExpr >(_lhs) )
199	if ( TupleExpr tuple = dynamic_cast<TupleExpr >(addr->get_arg()) )
200	std::copy( tuple->get_exprs().begin(), tuple->get_exprs().end(), back_inserter(lhs) );
201
202	rhs.clear();
203	}
204
205	TupleAssignSpotter::Matcher::Matcher( /TupleAssignSpotter &spot,/ Expression _lhs, Expression _rhs ) /: own_spotter(spot) /{
206	init(_lhs,_rhs);
207	}
208
209	TupleAssignSpotter::MultipleAssignMatcher::MultipleAssignMatcher( Expression _lhs, Expression _rhs )/* : own_spotter(spot) */{
210	init(_lhs,_rhs);
211
212	if ( TupleExpr tuple = dynamic_cast<TupleExpr >(_rhs) )
213	std::copy( tuple->get_exprs().begin(), tuple->get_exprs().end(), back_inserter(rhs) );
214	}
215
216	UntypedExpr TupleAssignSpotter::Matcher::createAssgn( Expression left, Expression *right ) {
217	if ( left && right ) {
218	std::list< Expression * > args;
219	args.push_back(new AddressExpr(left->clone())); args.push_back(right->clone());
220	return new UntypedExpr(new NameExpr("?=?"), args);
221	} else
222	throw 0; // xxx - diagnose the problem
223	}
224
225	bool TupleAssignSpotter::MassAssignMatcher::match( std::list< Expression * > &out ) {
226	if ( lhs.empty() \|\| (rhs.size() != 1) ) return false;
227
228	for ( std::list< Expression * >::iterator l = lhs.begin(); l != lhs.end(); l++ ) {
229	std::list< Expression * > args;
230	args.push_back( new AddressExpr(*l) );
231	args.push_back( rhs.front() );
232	out.push_back( new UntypedExpr(new NameExpr("?=?"), args) );
233	}
234
235	return true;
236	}
237
238	bool TupleAssignSpotter::MassAssignMatcher::solve( std::list< Expression * > &assigns ) {
239	/*
240	std::list< Expression * > solved_assigns;
241	ResolvExpr::AltList solved_alts;
242	assert( currentFinder != 0 );
243
244	ResolvExpr::AltList current;
245	if ( optMass.empty() ) {
246	for ( std::list< Expression * >::size_type i = 0; i != new_assigns.size(); ++i )
247	optMass.push_back( ResolvExpr::AltList() );
248	}
249	int cnt = 0;
250	for ( std::list< Expression * >::iterator i = new_assigns.begin(); i != new_assigns.end(); ++i, cnt++ ) {
251
252	ResolvExpr::AlternativeFinder finder( currentFinder->get_indexer(), currentFinder->get_environ() );
253	finder.findWithAdjustment(*i);
254	ResolvExpr::AltList alts = finder.get_alternatives();
255	assert( alts.size() == 1 );
256	assert(alts.front().expr != 0 );
257	current.push_back( finder.get_alternatives().front() );
258	optMass[cnt].push_back( finder.get_alternatives().front() );
259	solved_assigns.push_back( alts.front().expr->clone() );
260	}
261	*/
262	return true;
263	}
264
265	bool TupleAssignSpotter::MultipleAssignMatcher::match( std::list< Expression * > &out ) {
266	// need more complicated matching
267	if ( lhs.size() == rhs.size() ) {
268	zipWith( lhs.begin(), lhs.end(), rhs.begin(), rhs.end(), back_inserter(out), TupleAssignSpotter::Matcher::createAssgn );
269	return true;
270	} //else
271	//std::cerr << "The length of (left, right) is: (" << lhs.size() << "," << rhs.size() << ")" << std::endl;*/
272	return false;
273	}
274
275	bool TupleAssignSpotter::MultipleAssignMatcher::solve( std::list< Expression * > &assigns ) {
276	/*
277	std::list< Expression * > solved_assigns;
278	ResolvExpr::AltList solved_alts;
279	assert( currentFinder != 0 );
280
281	ResolvExpr::AltList current;
282	for ( std::list< Expression * >::iterator i = new_assigns.begin(); i != new_assigns.end(); ++i ) {
283	//try {
284	ResolvExpr::AlternativeFinder finder( currentFinder->get_indexer(), currentFinder->get_environ() );
285	finder.findWithAdjustment(*i);
286	// prune expressions that don't coincide with
287	ResolvExpr::AltList alts = finder.get_alternatives();
288	assert( alts.size() == 1 );
289	assert(alts.front().expr != 0 );
290	current.push_back( finder.get_alternatives().front() );
291	solved_assigns.push_back( alts.front().expr->clone() );
292	//solved_assigns.back()->print(std::cerr);
293	//} catch( ... ) {
294	//continue; // no reasonable alternative found
295	//}
296	}
297	options.add_option( current );
298	*/
299
300	return true;
301	}
302
303	void TupleAssignSpotter::Options::add_option( ResolvExpr::AltList &opt ) {
304	using namespace std;
305
306	options.push_back( opt );
307	/*
308	vector< Cost > costs;
309	costs.reserve( opt.size() );
310	transform( opt.begin(), opt.end(), back_inserter(costs), ptr_fun(extract_cost) );
311	*/
312	// transpose matrix
313	if ( costMatrix.empty() )
314	for ( unsigned int i = 0; i< opt.size(); ++i)
315	costMatrix.push_back( vector<ResolvExpr::Cost>() );
316
317	int cnt = 0;
318	for ( ResolvExpr::AltList::iterator i = opt.begin(); i != opt.end(); ++i, cnt++ )
319	costMatrix[cnt].push_back( i->cost );
320
321	return;
322	}
323
324	std::list< ResolvExpr::AltList > TupleAssignSpotter::Options::get_best() {
325	using namespace std;
326	using namespace ResolvExpr;
327	list< ResolvExpr::AltList > ret;
328	list< multiset<int> > solns;
329	for ( vector< vector<Cost> >::iterator i = costMatrix.begin(); i != costMatrix.end(); ++i ) {
330	list<int> current;
331	findMinCost( i->begin(), i->end(), back_inserter(current) );
332	solns.push_back( multiset<int>(current.begin(), current.end()) );
333	}
334	// need to combine
335	multiset<int> result;
336	lift_intersection( solns.begin(), solns.end(), inserter( result, result.begin() ) );
337	if ( result.size() != 1 )
338	throw SemanticError("Ambiguous tuple expression");
339	ret.push_back(get_option( *(result.begin() )));
340	return ret;
341	}
342
343	void TupleAssignSpotter::Options::print( std::ostream &ostr ) {
344	using namespace std;
345
346	for ( vector< vector < ResolvExpr::Cost > >::iterator i = costMatrix.begin(); i != costMatrix.end(); ++i ) {
347	for ( vector < ResolvExpr::Cost >::iterator j = i->begin(); j != i->end(); ++j )
348	ostr << *j << " " ;
349	ostr << std::endl;
350	} // for
351	return;
352	}
353
354	ResolvExpr::Cost extract_cost( ResolvExpr::Alternative &alt ) {
355	return alt.cost;
356	}
357
358	template< typename InputIterator, typename OutputIterator >
359	void TupleAssignSpotter::Options::findMinCost( InputIterator begin, InputIterator end, OutputIterator out ) {
360	using namespace ResolvExpr;
361	std::list<int> alternatives;
362
363	// select the alternatives that have the minimum parameter cost
364	Cost minCost = Cost::infinity;
365	unsigned int index = 0;
366	for ( InputIterator i = begin; i != end; ++i, index++ ) {
367	if ( *i < minCost ) {
368	minCost = *i;
369	alternatives.clear();
370	alternatives.push_back( index );
371	} else if ( *i == minCost ) {
372	alternatives.push_back( index );
373	}
374	}
375	std::copy( alternatives.begin(), alternatives.end(), out );
376	}
377
378	template< class InputIterator, class OutputIterator >
379	void TupleAssignSpotter::Options::lift_intersection( InputIterator begin, InputIterator end, OutputIterator out ) {
380	if ( begin == end ) return;
381	InputIterator test = begin;
382
383	if (++test == end)
384	{ copy(begin->begin(), begin->end(), out); return; }
385
386
387	std::multiset<int> cur; // InputIterator::value_type::value_type
388	copy( begin->begin(), begin->end(), inserter( cur, cur.begin() ) );
389
390	while ( test != end ) {
391	std::multiset<int> temp;
392	set_intersection( cur.begin(), cur.end(), test->begin(), test->end(), inserter(temp,temp.begin()) );
393	cur.clear();
394	copy( temp.begin(), temp.end(), inserter(cur,cur.begin()));
395	++test;
396	}
397
398	copy( cur.begin(), cur.end(), out );
399	return;
400	}
401
402	ResolvExpr::AltList TupleAssignSpotter::Options::get_option( std::list< ResolvExpr::AltList >::size_type index ) {
403	if ( index >= options.size() )
404	throw 0; // XXX
405	std::list< ResolvExpr::AltList >::iterator it = options.begin();
406	for ( std::list< ResolvExpr::AltList >::size_type i = 0; i < index; ++i, ++it );
407	return *it;
408	}
409	} // namespace Tuples
410
411	// Local Variables: //
412	// tab-width: 4 //
413	// mode: c++ //
414	// compile-command: "make install" //
415	// End: //

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