Context Navigation

source: src/Parser/StatementNode.cc @ 2f22cc4

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsctordeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxmemorynew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since 2f22cc4 was 2f22cc4, checked in by Peter A. Buhr <pabuhr@…>, 8 years ago
more refactoring of parser code
Property mode set to `100644`
File size: 13.9 KB

Line
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	// StatementNode.cc --
8	//
9	// Author : Rodolfo G. Esteves
10	// Created On : Sat May 16 14:59:41 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Wed Aug 10 13:54:21 2016
13	// Update Count : 170
14	//
15
16	#include <list>
17	#include <algorithm>
18	#include <cassert>
19
20	#include "ParseNode.h"
21	#include "SynTree/Statement.h"
22	#include "SynTree/Expression.h"
23	#include "parseutility.h"
24	#include "Common/utility.h"
25
26	using namespace std;
27
28	const char *StatementNode::StType[] = {
29	"Exp", "If", "Switch", "Case", "Default", "Choose", "Fallthru",
30	"While", "Do", "For",
31	"Goto", "Continue", "Break", "Return", "Throw",
32	"Try", "Catch", "Finally", "Asm",
33	"Decl"
34	};
35
36	StatementNode::StatementNode() : ParseNode(), control( 0 ), block( 0 ), labels( 0 ), target( 0 ), decl( 0 ), isCatchRest ( false ) {}
37
38	StatementNode::StatementNode( const string *name ) : ParseNode( name ), control( 0 ), block( 0 ), labels( 0 ), target( 0 ), decl( 0 ), isCatchRest ( false ) {}
39
40	StatementNode::StatementNode( DeclarationNode *decl ) : type( Decl ), control( 0 ), block( 0 ), labels( 0 ), target( 0 ), isCatchRest ( false ) {
41	if ( decl ) {
42	if ( DeclarationNode *agg = decl->extractAggregate() ) {
43	this->decl = agg;
44	StatementNode *nextStmt = new StatementNode;
45	nextStmt->type = Decl;
46	nextStmt->decl = decl;
47	next = nextStmt;
48	if ( decl->get_link() ) {
49	next->set_next( new StatementNode( dynamic_cast< DeclarationNode* >( decl->get_link() ) ) );
50	decl->set_next( 0 );
51	} // if
52	} else {
53	if ( decl->get_link() ) {
54	next = new StatementNode( dynamic_cast< DeclarationNode* >( decl->get_link() ) );
55	decl->set_next( 0 );
56	} // if
57	this->decl = decl;
58	} // if
59	} // if
60	}
61
62	StatementNode::StatementNode( Type t, ExpressionNode ctrl_label, StatementNode block ) : type( t ), control( ctrl_label ), block( block ), labels( 0 ), target( 0 ), decl( 0 ), isCatchRest ( false ) {
63	this->control = ( t == Default ) ? 0 : control;
64	}
65
66	StatementNode::StatementNode( Type t, string *target ) : type( t ), control( 0 ), block( 0 ), labels( 0 ), target( target ), decl( 0 ), isCatchRest ( false ) {}
67
68	StatementNode::~StatementNode() {
69	delete control;
70	delete block;
71	delete target;
72	delete decl;
73	}
74
75	StatementNode * StatementNode::newCatchStmt( DeclarationNode d, StatementNode s, bool catchRestP ) {
76	StatementNode *ret = new StatementNode( StatementNode::Catch, 0, s );
77	ret->addDeclaration( d );
78	ret->setCatchRest( catchRestP );
79
80	return ret;
81	}
82
83	std::string StatementNode::get_target() const{
84	if ( target )
85	return *target;
86
87	return string("");
88	}
89
90	StatementNode * StatementNode::clone() const {
91	StatementNode *newnode = new StatementNode( type, maybeClone( control ), maybeClone( block ) );
92	if ( target ) {
93	newnode->target = new string( *target );
94	} else {
95	newnode->target = 0;
96	} // if
97	newnode->decl = maybeClone( decl );
98	return newnode;
99	}
100
101	StatementNode StatementNode::add_label( const std::string l ) {
102	if ( l != 0 ) {
103	labels.push_front( *l );
104	delete l;
105	} // if
106	return this;
107	}
108
109	StatementNode StatementNode::append_block( StatementNode stmt ) {
110	if ( stmt != 0 ) {
111	if ( block == 0 )
112	block = stmt;
113	else
114	block->set_link( stmt );
115	} // if
116	return this;
117	}
118
119	StatementNode StatementNode::append_last_case( StatementNode stmt ) {
120	if ( stmt != 0 ) {
121	StatementNode next = ( StatementNode )get_link();
122	if ( next && ( next->get_type() == StatementNode::Case \|\| next->get_type() == StatementNode::Default ) )
123	next->append_last_case ( stmt );
124	else
125	if ( block == 0 )
126	block = stmt;
127	else
128	block->set_link( stmt );
129	} // if
130	return this;
131	}
132
133	void StatementNode::print( std::ostream &os, int indent ) const {
134	if ( ! labels.empty() ) {
135	std::list<std::string>::const_iterator i;
136
137	os << string( indent, ' ' );
138	for ( i = labels.begin(); i != labels.end(); i++ )
139	os << *i << ":";
140	os << endl;
141	} // if
142
143	switch ( type ) {
144	case Decl:
145	decl->print( os, indent );
146	break;
147	case Exp:
148	if ( control ) {
149	os << string( indent, ' ' );
150	control->print( os, indent );
151	os << endl;
152	} else
153	os << string( indent, ' ' ) << "Null Statement" << endl;
154	break;
155	default:
156	os << string( indent, ' ' ) << StatementNode::StType[type] << endl;
157	if ( type == Catch ) {
158	if ( decl ) {
159	os << string( indent + ParseNode::indent_by, ' ' ) << "Declaration: " << endl;
160	decl->print( os, indent + 2 * ParseNode::indent_by );
161	} else if ( isCatchRest ) {
162	os << string( indent + ParseNode::indent_by, ' ' ) << "Catches the rest " << endl;
163	} else {
164	; // should never reach here
165	} // if
166	} // if
167	if ( control ) {
168	os << string( indent + ParseNode::indent_by, ' ' ) << "Control: " << endl;
169	control->printList( os, indent + 2 * ParseNode::indent_by );
170	} // if
171	if ( block ) {
172	os << string( indent + ParseNode::indent_by, ' ' ) << "Cases: " << endl;
173	block->printList( os, indent + 2 * ParseNode::indent_by );
174	} // if
175	if ( target ) {
176	os << string( indent + ParseNode::indent_by, ' ' ) << "Target: " << get_target() << endl;
177	} // if
178	break;
179	} // switch
180	}
181
182	Statement *StatementNode::build() const {
183	std::list<Statement *> branches;
184	std::list<Expression *> exps;
185	std::list<Label> labs;
186
187	if ( ! labels.empty() ) {
188	std::back_insert_iterator< std::list<Label> > lab_it( labs );
189	copy( labels.begin(), labels.end(), lab_it );
190	} // if
191
192	// try {
193	buildList<Statement, StatementNode>( get_block(), branches );
194
195	switch ( type ) {
196	case Decl:
197	return new DeclStmt( labs, maybeBuild< Declaration >( decl ) );
198	case Exp:
199	{
200	Expression *e = maybeBuild< Expression >( get_control() );
201
202	if ( e )
203	return new ExprStmt( labs, e );
204	else
205	return new NullStmt( labs );
206	}
207	case If:
208	// {
209	// Statement thenb = 0, elseb = 0;
210	// assert( branches.size() >= 1 );
211
212	// thenb = branches.front();
213	// branches.pop_front();
214	// if ( ! branches.empty() ) {
215	// elseb = branches.front();
216	// branches.pop_front();
217	// } // if
218	// return new IfStmt( labs, notZeroExpr( maybeBuild<Expression>(get_control()) ), thenb, elseb );
219	// }
220	assert( false );
221	case Switch:
222	//return new SwitchStmt( labs, maybeBuild<Expression>(get_control()), branches );
223	assert( false );
224	case Case:
225	return new CaseStmt( labs, maybeBuild<Expression>(get_control() ), branches );
226	case Default:
227	return new CaseStmt( labs, 0, branches, true );
228	case While:
229	// assert( branches.size() == 1 );
230	// return new WhileStmt( labs, notZeroExpr( maybeBuild<Expression>(get_control()) ), branches.front() );
231	assert( false );
232	case Do:
233	// assert( branches.size() == 1 );
234	// return new WhileStmt( labs, notZeroExpr( maybeBuild<Expression>(get_control()) ), branches.front(), true );
235	assert( false );
236	case For:
237	// {
238	// assert( branches.size() == 1 );
239
240	// ForCtlExprNode ctl = dynamic_cast<ForCtlExprNode >( get_control() );
241	// assert( ctl != 0 );
242
243	// std::list<Statement *> init;
244	// if ( ctl->get_init() != 0 ) {
245	// buildList( ctl->get_init(), init );
246	// } // if
247
248	// Expression *cond = 0;
249	// if ( ctl->get_condition() != 0 )
250	// cond = notZeroExpr( maybeBuild<Expression>(ctl->get_condition()) );
251
252	// Expression *incr = 0;
253	// if ( ctl->get_change() != 0 )
254	// incr = maybeBuild<Expression>(ctl->get_change());
255
256	// return new ForStmt( labs, init, cond, incr, branches.front() );
257	// }
258	assert( false );
259	case Goto:
260	{
261	if ( get_target() == "" ) { // computed goto
262	assert( get_control() != 0 );
263	return new BranchStmt( labs, maybeBuild<Expression>(get_control()), BranchStmt::Goto );
264	} // if
265
266	return new BranchStmt( labs, get_target(), BranchStmt::Goto );
267	}
268	case Break:
269	return new BranchStmt( labs, get_target(), BranchStmt::Break );
270	case Continue:
271	return new BranchStmt( labs, get_target(), BranchStmt::Continue );
272	case Return:
273	case Throw :
274	buildList( get_control(), exps );
275	if ( exps.size() ==0 )
276	return new ReturnStmt( labs, 0, type == Throw );
277	if ( exps.size() > 0 )
278	return new ReturnStmt( labs, exps.back(), type == Throw );
279	case Try:
280	{
281	assert( branches.size() >= 0 );
282	CompoundStmt tryBlock = dynamic_cast<CompoundStmt >( branches.front());
283	branches.pop_front();
284	FinallyStmt *finallyBlock = 0;
285	if ( ( finallyBlock = dynamic_cast<FinallyStmt *>( branches.back())) ) {
286	branches.pop_back();
287	} // if
288	return new TryStmt( labs, tryBlock, branches, finallyBlock );
289	}
290	case Catch:
291	{
292	assert( branches.size() == 1 );
293
294	return new CatchStmt( labs, maybeBuild< Declaration >( decl ), branches.front(), isCatchRest );
295	}
296	case Finally:
297	{
298	assert( branches.size() == 1 );
299	CompoundStmt block = dynamic_cast<CompoundStmt >( branches.front() );
300	assert( block != 0 );
301
302	return new FinallyStmt( labs, block );
303	}
304	case Asm:
305	assert( false );
306	default:
307	// shouldn't be here
308	return 0;
309	} // switch
310	}
311
312	Statement build_if( ExpressionNode ctl, StatementNode then_stmt, StatementNode else_stmt ) {
313	Statement thenb, elseb = 0;
314	std::list<Statement *> branches;
315	buildList<Statement, StatementNode>( then_stmt, branches );
316	assert( branches.size() >= 1 );
317	thenb = branches.front();
318
319	if ( else_stmt ) {
320	std::list<Statement *> branches;
321	buildList<Statement, StatementNode>( else_stmt, branches );
322	assert( branches.size() >= 1 );
323	elseb = branches.front();
324	} // if
325	return new IfStmt( noLabels, notZeroExpr( maybeBuild<Expression>(ctl) ), thenb, elseb );
326	}
327
328	Statement build_switch( ExpressionNode ctl, StatementNode *stmt ) {
329	std::list<Statement *> branches;
330	buildList<Statement, StatementNode>( stmt, branches );
331	assert( branches.size() >= 1 );
332	return new SwitchStmt( noLabels, maybeBuild<Expression>(ctl), branches );
333	}
334
335	Statement build_while( ExpressionNode ctl, StatementNode *stmt, bool kind ) {
336	std::list<Statement *> branches;
337	buildList<Statement, StatementNode>( stmt, branches );
338	assert( branches.size() == 1 );
339	return new WhileStmt( noLabels, notZeroExpr( maybeBuild<Expression>(ctl) ), branches.front(), kind );
340	}
341
342	Statement build_for( ForCtl forctl, StatementNode *stmt ) {
343	std::list<Statement *> branches;
344	buildList<Statement, StatementNode>( stmt, branches );
345	assert( branches.size() == 1 );
346
347	std::list<Statement *> init;
348	if ( forctl->init != 0 ) {
349	buildList( forctl->init, init );
350	} // if
351
352	Expression *cond = 0;
353	if ( forctl->condition != 0 )
354	cond = notZeroExpr( maybeBuild<Expression>(forctl->condition) );
355
356	Expression *incr = 0;
357	if ( forctl->change != 0 )
358	incr = maybeBuild<Expression>(forctl->change);
359
360	delete forctl;
361	return new ForStmt( noLabels, init, cond, incr, branches.front() );
362	}
363
364
365	CompoundStmtNode::CompoundStmtNode() : first( 0 ), last( 0 ) {}
366
367	CompoundStmtNode::CompoundStmtNode( const string *name_ ) : StatementNode( name_ ), first( 0 ), last( 0 ) {}
368
369	CompoundStmtNode::CompoundStmtNode( StatementNode *stmt ) : first( stmt ) {
370	if ( first ) {
371	last = ( StatementNode *)( stmt->get_last());
372	} else {
373	last = 0;
374	} // if
375	}
376
377	CompoundStmtNode::~CompoundStmtNode() {
378	delete first;
379	}
380
381	void CompoundStmtNode::add_statement( StatementNode *stmt ) {
382	if ( stmt != 0 ) {
383	last->set_link( stmt );
384	last = ( StatementNode *)( stmt->get_link());
385	} // if
386	}
387
388	void CompoundStmtNode::print( ostream &os, int indent ) const {
389	if ( first ) {
390	first->printList( os, indent+2 );
391	} // if
392	}
393
394	Statement *CompoundStmtNode::build() const {
395	std::list<Label> labs;
396	const std::list<std::string> &labels = get_labels();
397
398	if ( ! labels.empty() ) {
399	std::back_insert_iterator< std::list<Label> > lab_it( labs );
400	copy( labels.begin(), labels.end(), lab_it );
401	} // if
402
403	CompoundStmt *cs = new CompoundStmt( labs );
404	buildList( first, cs->get_kids() );
405	return cs;
406	}
407
408
409	AsmStmtNode::AsmStmtNode( Type t, bool voltile, ConstantExpr instruction, ExpressionNode output, ExpressionNode input, ExpressionNode clobber, LabelNode *gotolabels ) :
410	StatementNode( t ), voltile( voltile ), instruction( instruction ), output( output ), input( input ), clobber( clobber ) {
411	if ( gotolabels ) {
412	this->gotolabels = gotolabels->get_labels();
413	delete gotolabels;
414	} // if
415	}
416
417	AsmStmtNode::~AsmStmtNode() {
418	delete output; delete input; delete clobber;
419	}
420
421	void AsmStmtNode::print( std::ostream &os, int indent ) const {
422	StatementNode::print( os, indent ); // print statement labels
423	os << string( indent + ParseNode::indent_by, ' ' ) << "volatile:" << voltile << endl;
424	if ( instruction ) {
425	os << string( indent + ParseNode::indent_by, ' ' ) << "Instruction:" << endl;
426	// instruction->printList( os, indent + 2 * ParseNode::indent_by );
427	} // if
428	if ( output ) {
429	os << string( indent + ParseNode::indent_by, ' ' ) << "Output:" << endl;
430	output->printList( os, indent + 2 * ParseNode::indent_by );
431	} // if
432	if ( input ) {
433	os << string( indent + ParseNode::indent_by, ' ' ) << "Input:" << endl;
434	input->printList( os, indent + 2 * ParseNode::indent_by );
435	} // if
436	if ( clobber ) {
437	os << string( indent + ParseNode::indent_by, ' ' ) << "Clobber:" << endl;
438	// clobber->printList( os, indent + 2 * ParseNode::indent_by );
439	} // if
440	if ( ! gotolabels.empty() ) {
441	os << string( indent + ParseNode::indent_by, ' ' ) << "Goto Labels:" << endl;
442	os << string( indent + 2 * ParseNode::indent_by, ' ' );
443	for ( std::list<Label>::const_iterator i = gotolabels.begin();; ) {
444	os << *i;
445	i++;
446	if ( i == gotolabels.end() ) break;
447	os << ", ";
448	}
449	os << endl;
450	} // if
451	}
452
453	Statement *AsmStmtNode::build() const {
454	std::list<Label> labs;
455
456	if ( ! get_labels().empty() ) {
457	std::back_insert_iterator< std::list<Label> > lab_it( labs );
458	copy( get_labels().begin(), get_labels().end(), lab_it );
459	} // if
460
461	std::list< Expression * > out, in;
462	std::list< ConstantExpr * > clob;
463	buildList( output, out );
464	buildList( input, in );
465	buildList( clobber, clob );
466	std::list< Label > gotolabs = gotolabels;
467	return new AsmStmt( labs, voltile, instruction, out, in, clob, gotolabs );
468	}
469
470	// Local Variables: //
471	// tab-width: 4 //
472	// mode: c++ //
473	// compile-command: "make install" //
474	// End: //

Note: See TracBrowser for help on using the repository browser.

Download in other formats: