source: src/AST/Pass.impl.hpp@ 3c79ea9

ADT ast-experimental pthread-emulation qualifiedEnum
Last change on this file since 3c79ea9 was 4ec9513, checked in by Andrew Beach <ajbeach@…>, 4 years ago

Converted validate C, including adding DimensionExpr to the new ast.

  • Property mode set to 100644
File size: 64.4 KB
RevLine 
[04124c4]1//
2// Cforall Version 1.0.0 Copyright (C) 2019 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//
[e0016a5]7// ast::Pass.impl.hpp --
[04124c4]8//
9// Author : Thierry Delisle
10// Created On : Thu May 09 15::37::05 2019
11// Last Modified By :
12// Last Modified On :
13// Update Count :
14//
15
[f47f887]16#pragma once
[04124c4]17// IWYU pragma: private, include "AST/Pass.hpp"
[f47f887]18
[6d51bd7]19#include <type_traits>
20#include <unordered_map>
21
[293dc1c]22#include "AST/TranslationUnit.hpp"
[c671112]23#include "AST/TypeSubstitution.hpp"
24
[f47f887]25#define VISIT_START( node ) \
[04124c4]26 using namespace ast; \
[f47f887]27 /* back-up the visit children */ \
[7ff3e522]28 __attribute__((unused)) ast::__pass::visit_children_guard guard1( ast::__pass::visit_children(core, 0) ); \
[f47f887]29 /* setup the scope for passes that want to run code at exit */ \
[7ff3e522]30 __attribute__((unused)) ast::__pass::guard_value guard2( ast::__pass::at_cleanup (core, 0) ); \
[c15085d]31 /* begin tracing memory allocation if requested by this pass */ \
[7ff3e522]32 __pass::beginTrace( core, 0 ); \
[f47f887]33 /* call the implementation of the previsit of this pass */ \
[7ff3e522]34 __pass::previsit( core, node, 0 );
[f47f887]35
36#define VISIT_END( type, node ) \
37 /* call the implementation of the postvisit of this pass */ \
[7ff3e522]38 auto __return = __pass::postvisit( core, node, 0 ); \
[f47f887]39 assertf(__return, "post visit should never return null"); \
[c15085d]40 /* end tracing memory allocation if requested by this pass */ \
[7ff3e522]41 __pass::endTrace( core, 0 ); \
[f47f887]42 return __return;
43
44#ifdef PEDANTIC_PASS_ASSERT
[6d51bd7]45#define __pedantic_pass_assert(...) assert (__VA_ARGS__)
46#define __pedantic_pass_assertf(...) assertf(__VA_ARGS__)
[f47f887]47#else
[6d51bd7]48#define __pedantic_pass_assert(...)
[f47f887]49#define __pedantic_pass_assertf(...)
50#endif
51
52namespace ast {
[d3aa64f1]53 template<typename node_t>
54 node_t * shallowCopy( const node_t * node );
55
[f47f887]56 namespace __pass {
57 // Check if this is either a null pointer or a pointer to an empty container
58 template<typename T>
59 static inline bool empty( T * ptr ) {
60 return !ptr || ptr->empty();
61 }
62
[d3aa64f1]63 template< typename core_t, typename node_t >
64 static inline node_t* mutate(const node_t *node) {
65 return std::is_base_of<PureVisitor, core_t>::value ? ::ast::shallowCopy(node) : ::ast::mutate(node);
66 }
67
[6d51bd7]68 //------------------------------
69 template<typename it_t, template <class...> class container_t>
70 static inline void take_all( it_t it, container_t<ast::ptr<ast::Decl>> * decls, bool * mutated = nullptr ) {
[f47f887]71 if(empty(decls)) return;
72
[6d51bd7]73 std::transform(decls->begin(), decls->end(), it, [](const ast::Decl * decl) -> auto {
[8a5530c]74 return new DeclStmt( decl->location, decl );
[f47f887]75 });
76 decls->clear();
77 if(mutated) *mutated = true;
78 }
79
[6d51bd7]80 template<typename it_t, template <class...> class container_t>
[f8143a6]81 static inline void take_all( it_t it, container_t<ast::ptr<ast::Stmt>> * stmts, bool * mutated = nullptr ) {
82 if(empty(stmts)) return;
[f47f887]83
[f8143a6]84 std::move(stmts->begin(), stmts->end(), it);
85 stmts->clear();
[f47f887]86 if(mutated) *mutated = true;
87 }
88
[6d51bd7]89 //------------------------------
90 /// Check if should be skipped, different for pointers and containers
[f47f887]91 template<typename node_t>
[6d51bd7]92 bool skip( const ast::ptr<node_t> & val) {
93 return !val;
[f47f887]94 }
95
[6d51bd7]96 template< template <class...> class container_t, typename node_t >
97 bool skip( const container_t<ast::ptr< node_t >> & val ) {
98 return val.empty();
[f47f887]99 }
100
[6d51bd7]101 //------------------------------
102 /// Get the value to visit, different for pointers and containers
103 template<typename node_t>
104 auto get( const ast::ptr<node_t> & val, int ) -> decltype(val.get()) {
105 return val.get();
106 }
[f47f887]107
[6d51bd7]108 template<typename node_t>
109 const node_t & get( const node_t & val, long) {
110 return val;
111 }
[f47f887]112
[6d51bd7]113 //------------------------------
114 /// Check if value was mutated, different for pointers and containers
115 template<typename lhs_t, typename rhs_t>
116 bool differs( const lhs_t * old_val, const rhs_t * new_val ) {
117 return old_val != new_val;
118 }
119
120 template< template <class...> class container_t, typename node_t >
121 bool differs( const container_t<ast::ptr< node_t >> &, const container_t<ast::ptr< node_t >> & new_val ) {
122 return !new_val.empty();
[f47f887]123 }
124 }
125
[f8143a6]126 template< typename node_t >
127 template< typename object_t, typename super_t, typename field_t >
[eb211bf]128 void __pass::result1< node_t >::apply( object_t * object, field_t super_t::* field ) {
[f8143a6]129 object->*field = value;
130 }
131
[7ff3e522]132 template< typename core_t >
[f47f887]133 template< typename node_t >
[7ff3e522]134 auto ast::Pass< core_t >::call_accept( const node_t * node )
[eb211bf]135 -> typename ast::Pass< core_t >::template generic_call_accept_result<node_t>::type
[8a5530c]136 {
[f47f887]137 __pedantic_pass_assert( __visit_children() );
[e0e9a0b]138 __pedantic_pass_assert( node );
[f47f887]139
[6d51bd7]140 static_assert( !std::is_base_of<ast::Expr, node_t>::value, "ERROR");
141 static_assert( !std::is_base_of<ast::Stmt, node_t>::value, "ERROR");
142
[f8143a6]143 auto nval = node->accept( *this );
[eb211bf]144 __pass::result1<
[f8143a6]145 typename std::remove_pointer< decltype( node->accept(*this) ) >::type
146 > res;
147 res.differs = nval != node;
148 res.value = nval;
149 return res;
[f47f887]150 }
151
[7ff3e522]152 template< typename core_t >
[eb211bf]153 __pass::template result1<ast::Expr> ast::Pass< core_t >::call_accept( const ast::Expr * expr ) {
[f47f887]154 __pedantic_pass_assert( __visit_children() );
155 __pedantic_pass_assert( expr );
156
[b2a11ba]157 const ast::TypeSubstitution ** typeSubs_ptr = __pass::typeSubs( core, 0 );
158 if ( typeSubs_ptr && expr->env ) {
159 *typeSubs_ptr = expr->env;
[f47f887]160 }
161
[f8143a6]162 auto nval = expr->accept( *this );
163 return { nval != expr, nval };
[f47f887]164 }
165
[7ff3e522]166 template< typename core_t >
[eb211bf]167 __pass::template result1<ast::Stmt> ast::Pass< core_t >::call_accept( const ast::Stmt * stmt ) {
[f47f887]168 __pedantic_pass_assert( __visit_children() );
169 __pedantic_pass_assert( stmt );
170
[f8143a6]171 const ast::Stmt * nval = stmt->accept( *this );
172 return { nval != stmt, nval };
[490fb92e]173 }
174
175 template< typename core_t >
[eb211bf]176 __pass::template result1<ast::Stmt> ast::Pass< core_t >::call_accept_as_compound( const ast::Stmt * stmt ) {
[490fb92e]177 __pedantic_pass_assert( __visit_children() );
178 __pedantic_pass_assert( stmt );
179
[f47f887]180 // add a few useful symbols to the scope
181 using __pass::empty;
182
183 // get the stmts/decls that will need to be spliced in
[7ff3e522]184 auto stmts_before = __pass::stmtsToAddBefore( core, 0);
185 auto stmts_after = __pass::stmtsToAddAfter ( core, 0);
186 auto decls_before = __pass::declsToAddBefore( core, 0);
187 auto decls_after = __pass::declsToAddAfter ( core, 0);
[f47f887]188
189 // These may be modified by subnode but most be restored once we exit this statemnet.
[b2a11ba]190 ValueGuardPtr< const ast::TypeSubstitution * > __old_env ( __pass::typeSubs( core, 0 ) );
[23f99e1]191 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_before) >::type > __old_decls_before( stmts_before );
192 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_after ) >::type > __old_decls_after ( stmts_after );
193 ValueGuardPtr< typename std::remove_pointer< decltype(decls_before) >::type > __old_stmts_before( decls_before );
194 ValueGuardPtr< typename std::remove_pointer< decltype(decls_after ) >::type > __old_stmts_after ( decls_after );
[f47f887]195
196 // Now is the time to actually visit the node
[6d51bd7]197 const ast::Stmt * nstmt = stmt->accept( *this );
[f47f887]198
199 // If the pass doesn't want to add anything then we are done
200 if( empty(stmts_before) && empty(stmts_after) && empty(decls_before) && empty(decls_after) ) {
[f8143a6]201 return { nstmt != stmt, nstmt };
[f47f887]202 }
203
204 // Make sure that it is either adding statements or declartions but not both
205 // this is because otherwise the order would be awkward to predict
206 assert(( empty( stmts_before ) && empty( stmts_after ))
207 || ( empty( decls_before ) && empty( decls_after )) );
208
209 // Create a new Compound Statement to hold the new decls/stmts
[6d51bd7]210 ast::CompoundStmt * compound = new ast::CompoundStmt( stmt->location );
[f47f887]211
212 // Take all the declarations that go before
213 __pass::take_all( std::back_inserter( compound->kids ), decls_before );
214 __pass::take_all( std::back_inserter( compound->kids ), stmts_before );
215
216 // Insert the original declaration
[6d51bd7]217 compound->kids.emplace_back( nstmt );
[f47f887]218
219 // Insert all the declarations that go before
220 __pass::take_all( std::back_inserter( compound->kids ), decls_after );
221 __pass::take_all( std::back_inserter( compound->kids ), stmts_after );
222
[f8143a6]223 return {true, compound};
[f47f887]224 }
225
[6d51bd7]226 template< template <class...> class container_t >
[f8143a6]227 template< typename object_t, typename super_t, typename field_t >
[eb211bf]228 void __pass::resultNstmt<container_t>::apply(object_t * object, field_t super_t::* field) {
[f8143a6]229 auto & container = object->*field;
230 __pedantic_pass_assert( container.size() <= values.size() );
231
232 auto cit = enumerate(container).begin();
233
234 container_t<ptr<Stmt>> nvals;
[eb211bf]235 for (delta & d : values) {
236 if ( d.is_old ) {
[f8143a6]237 __pedantic_pass_assert( cit.idx <= d.old_idx );
238 std::advance( cit, d.old_idx - cit.idx );
239 nvals.push_back( std::move( (*cit).val) );
240 } else {
[eb211bf]241 nvals.push_back( std::move(d.new_val) );
[f8143a6]242 }
243 }
244
[eb211bf]245 container = std::move(nvals);
246 }
247
248 template< template <class...> class container_t >
249 template< template <class...> class incontainer_t >
250 void __pass::resultNstmt< container_t >::take_all( incontainer_t<ptr<Stmt>> * stmts ) {
251 if (!stmts || stmts->empty()) return;
252
253 std::transform(stmts->begin(), stmts->end(), std::back_inserter( values ),
254 [](ast::ptr<ast::Stmt>& stmt) -> delta {
255 return delta( stmt.release(), -1, false );
256 });
257 stmts->clear();
258 differs = true;
259 }
260
261 template< template<class...> class container_t >
262 template< template<class...> class incontainer_t >
263 void __pass::resultNstmt< container_t >::take_all( incontainer_t<ptr<Decl>> * decls ) {
264 if (!decls || decls->empty()) return;
265
266 std::transform(decls->begin(), decls->end(), std::back_inserter( values ),
267 [](ast::ptr<ast::Decl>& decl) -> delta {
268 auto loc = decl->location;
269 auto stmt = new DeclStmt( loc, decl.release() );
270 return delta( stmt, -1, false );
271 });
272 decls->clear();
273 differs = true;
[f8143a6]274 }
275
276 template< typename core_t >
277 template< template <class...> class container_t >
[eb211bf]278 __pass::template resultNstmt<container_t> ast::Pass< core_t >::call_accept( const container_t< ptr<Stmt> > & statements ) {
[f47f887]279 __pedantic_pass_assert( __visit_children() );
280 if( statements.empty() ) return {};
281
282 // We are going to aggregate errors for all these statements
283 SemanticErrorException errors;
284
285 // add a few useful symbols to the scope
286 using __pass::empty;
287
288 // get the stmts/decls that will need to be spliced in
[7ff3e522]289 auto stmts_before = __pass::stmtsToAddBefore( core, 0);
290 auto stmts_after = __pass::stmtsToAddAfter ( core, 0);
291 auto decls_before = __pass::declsToAddBefore( core, 0);
292 auto decls_after = __pass::declsToAddAfter ( core, 0);
[f47f887]293
294 // These may be modified by subnode but most be restored once we exit this statemnet.
[23f99e1]295 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_before) >::type > __old_decls_before( stmts_before );
296 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_after ) >::type > __old_decls_after ( stmts_after );
297 ValueGuardPtr< typename std::remove_pointer< decltype(decls_before) >::type > __old_stmts_before( decls_before );
298 ValueGuardPtr< typename std::remove_pointer< decltype(decls_after ) >::type > __old_stmts_after ( decls_after );
[f47f887]299
300 // update pass statitistics
301 pass_visitor_stats.depth++;
302 pass_visitor_stats.max->push(pass_visitor_stats.depth);
303 pass_visitor_stats.avg->push(pass_visitor_stats.depth);
304
[eb211bf]305 __pass::resultNstmt<container_t> new_kids;
[f8143a6]306 for( auto value : enumerate( statements ) ) {
[f47f887]307 try {
[f8143a6]308 size_t i = value.idx;
309 const Stmt * stmt = value.val;
[f47f887]310 __pedantic_pass_assert( stmt );
[6d51bd7]311 const ast::Stmt * new_stmt = stmt->accept( *this );
[f47f887]312 assert( new_stmt );
[f8143a6]313 if(new_stmt != stmt ) { new_kids.differs = true; }
[f47f887]314
315 // Make sure that it is either adding statements or declartions but not both
316 // this is because otherwise the order would be awkward to predict
317 assert(( empty( stmts_before ) && empty( stmts_after ))
318 || ( empty( decls_before ) && empty( decls_after )) );
319
320
321
322 // Take all the statements which should have gone after, N/A for first iteration
[f8143a6]323 new_kids.take_all( decls_before );
324 new_kids.take_all( stmts_before );
[f47f887]325
326 // Now add the statement if there is one
[f8143a6]327 if(new_stmt != stmt) {
328 new_kids.values.emplace_back( new_stmt, i, false );
329 } else {
330 new_kids.values.emplace_back( nullptr, i, true );
331 }
[f47f887]332
333 // Take all the declarations that go before
[f8143a6]334 new_kids.take_all( decls_after );
335 new_kids.take_all( stmts_after );
[f47f887]336 }
337 catch ( SemanticErrorException &e ) {
338 errors.append( e );
339 }
340 }
341 pass_visitor_stats.depth--;
342 if ( !errors.isEmpty() ) { throw errors; }
343
[f8143a6]344 return new_kids;
345 }
346
347 template< template <class...> class container_t, typename node_t >
348 template< typename object_t, typename super_t, typename field_t >
[eb211bf]349 void __pass::resultN<container_t, node_t>::apply(object_t * object, field_t super_t::* field) {
[f8143a6]350 auto & container = object->*field;
351 __pedantic_pass_assert( container.size() == values.size() );
352
353 for(size_t i = 0; i < container.size(); i++) {
354 // Take all the elements that are different in 'values'
355 // and swap them into 'container'
[8631c84]356 if( values[i] != nullptr ) swap(container[i], values[i]);
[f8143a6]357 }
358
359 // Now the original containers should still have the unchanged values
360 // but also contain the new values
[f47f887]361 }
362
[7ff3e522]363 template< typename core_t >
[6d51bd7]364 template< template <class...> class container_t, typename node_t >
[eb211bf]365 __pass::template resultN<container_t, node_t> ast::Pass< core_t >::call_accept( const container_t< ast::ptr<node_t> > & container ) {
[f47f887]366 __pedantic_pass_assert( __visit_children() );
367 if( container.empty() ) return {};
368 SemanticErrorException errors;
369
370 pass_visitor_stats.depth++;
371 pass_visitor_stats.max->push(pass_visitor_stats.depth);
372 pass_visitor_stats.avg->push(pass_visitor_stats.depth);
373
374 bool mutated = false;
[f8143a6]375 container_t<ptr<node_t>> new_kids;
[f47f887]376 for ( const node_t * node : container ) {
377 try {
378 __pedantic_pass_assert( node );
[6d51bd7]379 const node_t * new_stmt = strict_dynamic_cast< const node_t * >( node->accept( *this ) );
[f8143a6]380 if(new_stmt != node ) {
381 mutated = true;
382 new_kids.emplace_back( new_stmt );
383 } else {
384 new_kids.emplace_back( nullptr );
385 }
[f47f887]386
387 }
388 catch( SemanticErrorException &e ) {
389 errors.append( e );
390 }
391 }
[f8143a6]392
393 __pedantic_pass_assert( new_kids.size() == container.size() );
[f47f887]394 pass_visitor_stats.depth--;
395 if ( ! errors.isEmpty() ) { throw errors; }
396
[eb211bf]397 return ast::__pass::resultN<container_t, node_t>{ mutated, new_kids };
[6d51bd7]398 }
399
[7ff3e522]400 template< typename core_t >
[2377ca2]401 template<typename node_t, typename super_t, typename field_t>
[7ff3e522]402 void ast::Pass< core_t >::maybe_accept(
[6d51bd7]403 const node_t * & parent,
[2377ca2]404 field_t super_t::*field
[6d51bd7]405 ) {
[2377ca2]406 static_assert( std::is_base_of<super_t, node_t>::value, "Error deducing member object" );
[6d51bd7]407
[2377ca2]408 if(__pass::skip(parent->*field)) return;
409 const auto & old_val = __pass::get(parent->*field, 0);
[6d51bd7]410
411 static_assert( !std::is_same<const ast::Node * &, decltype(old_val)>::value, "ERROR");
412
413 auto new_val = call_accept( old_val );
414
[f8143a6]415 static_assert( !std::is_same<const ast::Node *, decltype(new_val)>::value /* || std::is_same<int, decltype(old_val)>::value */, "ERROR");
[6d51bd7]416
[f8143a6]417 if( new_val.differs ) {
[d3aa64f1]418 auto new_parent = __pass::mutate<core_t>(parent);
[2377ca2]419 new_val.apply(new_parent, field);
[6d51bd7]420 parent = new_parent;
421 }
[f47f887]422 }
[6d51bd7]423
[490fb92e]424 template< typename core_t >
[2377ca2]425 template<typename node_t, typename super_t, typename field_t>
[490fb92e]426 void ast::Pass< core_t >::maybe_accept_as_compound(
427 const node_t * & parent,
[2377ca2]428 field_t super_t::*child
[490fb92e]429 ) {
[2377ca2]430 static_assert( std::is_base_of<super_t, node_t>::value, "Error deducing member object" );
[490fb92e]431
432 if(__pass::skip(parent->*child)) return;
433 const auto & old_val = __pass::get(parent->*child, 0);
434
435 static_assert( !std::is_same<const ast::Node * &, decltype(old_val)>::value, "ERROR");
436
437 auto new_val = call_accept_as_compound( old_val );
438
439 static_assert( !std::is_same<const ast::Node *, decltype(new_val)>::value || std::is_same<int, decltype(old_val)>::value, "ERROR");
440
[f8143a6]441 if( new_val.differs ) {
[490fb92e]442 auto new_parent = __pass::mutate<core_t>(parent);
[f8143a6]443 new_val.apply( new_parent, child );
[490fb92e]444 parent = new_parent;
445 }
446 }
447
[f47f887]448}
449
450//------------------------------------------------------------------------------------------------------------------------------------------------------------------------
451//========================================================================================================================================================================
452//========================================================================================================================================================================
453//========================================================================================================================================================================
454//========================================================================================================================================================================
455//========================================================================================================================================================================
456//------------------------------------------------------------------------------------------------------------------------------------------------------------------------
457
[7ff3e522]458template< typename core_t >
459inline void ast::accept_all( std::list< ast::ptr<ast::Decl> > & decls, ast::Pass< core_t > & visitor ) {
[04124c4]460 // We are going to aggregate errors for all these statements
461 SemanticErrorException errors;
462
463 // add a few useful symbols to the scope
464 using __pass::empty;
465
466 // get the stmts/decls that will need to be spliced in
[7ff3e522]467 auto decls_before = __pass::declsToAddBefore( visitor.core, 0);
468 auto decls_after = __pass::declsToAddAfter ( visitor.core, 0);
[04124c4]469
470 // update pass statitistics
471 pass_visitor_stats.depth++;
472 pass_visitor_stats.max->push(pass_visitor_stats.depth);
473 pass_visitor_stats.avg->push(pass_visitor_stats.depth);
474
475 for ( std::list< ast::ptr<ast::Decl> >::iterator i = decls.begin(); ; ++i ) {
476 // splice in new declarations after previous decl
477 if ( !empty( decls_after ) ) { decls.splice( i, *decls_after ); }
478
479 if ( i == decls.end() ) break;
480
481 try {
482 // run visitor on declaration
483 ast::ptr<ast::Decl> & node = *i;
484 assert( node );
485 node = node->accept( visitor );
486 }
487 catch( SemanticErrorException &e ) {
[e00c22f]488 if (__pass::on_error (visitor.core, *i, 0))
[0dd9a5e]489 errors.append( e );
[04124c4]490 }
491
492 // splice in new declarations before current decl
493 if ( !empty( decls_before ) ) { decls.splice( i, *decls_before ); }
494 }
495 pass_visitor_stats.depth--;
496 if ( !errors.isEmpty() ) { throw errors; }
497}
498
[293dc1c]499template< typename core_t >
500inline void ast::accept_all( ast::TranslationUnit & unit, ast::Pass< core_t > & visitor ) {
[c600df1]501 if ( auto ptr = __pass::translation_unit::get_cptr( visitor.core, 0 ) ) {
502 ValueGuard<const TranslationUnit *> guard( *ptr );
503 *ptr = &unit;
504 return ast::accept_all( unit.decls, visitor );
505 } else {
506 return ast::accept_all( unit.decls, visitor );
507 }
[293dc1c]508}
509
[f47f887]510// A NOTE ON THE ORDER OF TRAVERSAL
511//
512// Types and typedefs have their base types visited before they are added to the type table. This is ok, since there is
513// no such thing as a recursive type or typedef.
514//
515// typedef struct { T *x; } T; // never allowed
516//
517// for structs/unions, it is possible to have recursion, so the decl should be added as if it's incomplete to begin, the
518// members are traversed, and then the complete type should be added (assuming the type is completed by this particular
519// declaration).
520//
521// struct T { struct T *x; }; // allowed
522//
523// It is important to add the complete type to the symbol table *after* the members/base has been traversed, since that
524// traversal may modify the definition of the type and these modifications should be visible when the symbol table is
525// queried later in this pass.
526
527//--------------------------------------------------------------------------
528// ObjectDecl
[7ff3e522]529template< typename core_t >
530const ast::DeclWithType * ast::Pass< core_t >::visit( const ast::ObjectDecl * node ) {
[f47f887]531 VISIT_START( node );
532
[e21f253]533 if ( __visit_children() ) {
[f47f887]534 {
[0e42794]535 guard_symtab guard { *this };
[23f99e1]536 maybe_accept( node, &ObjectDecl::type );
[f47f887]537 }
[23f99e1]538 maybe_accept( node, &ObjectDecl::init );
539 maybe_accept( node, &ObjectDecl::bitfieldWidth );
540 maybe_accept( node, &ObjectDecl::attributes );
[e21f253]541 }
[f47f887]542
[7ff3e522]543 __pass::symtab::addId( core, 0, node );
[f47f887]544
[04124c4]545 VISIT_END( DeclWithType, node );
[f47f887]546}
547
[23f99e1]548//--------------------------------------------------------------------------
549// FunctionDecl
[7ff3e522]550template< typename core_t >
551const ast::DeclWithType * ast::Pass< core_t >::visit( const ast::FunctionDecl * node ) {
[23f99e1]552 VISIT_START( node );
553
[7ff3e522]554 __pass::symtab::addId( core, 0, node );
[23f99e1]555
[e21f253]556 if ( __visit_children() ) {
557 maybe_accept( node, &FunctionDecl::withExprs );
558 }
[23f99e1]559 {
560 // with clause introduces a level of scope (for the with expression members).
[0e42794]561 // with clause exprs are added to the symbol table before parameters so that parameters
[23f99e1]562 // shadow with exprs and not the other way around.
[0e42794]563 guard_symtab guard { *this };
[7ff3e522]564 __pass::symtab::addWith( core, 0, node->withExprs, node );
[23f99e1]565 {
[0e42794]566 guard_symtab guard { *this };
[23f99e1]567 // implicit add __func__ identifier as specified in the C manual 6.4.2.2
[798a8b3]568 static ast::ptr< ast::ObjectDecl > func{ new ast::ObjectDecl{
[9ea38de]569 CodeLocation{}, "__func__",
570 new ast::ArrayType{
571 new ast::BasicType{ ast::BasicType::Char, ast::CV::Const },
[8a5530c]572 nullptr, VariableLen, DynamicDim
[9ea38de]573 }
574 } };
[7ff3e522]575 __pass::symtab::addId( core, 0, func );
[e21f253]576 if ( __visit_children() ) {
[3e5dd913]577 maybe_accept( node, &FunctionDecl::type_params );
578 maybe_accept( node, &FunctionDecl::assertions );
[4ec9513]579 maybe_accept( node, &FunctionDecl::params );
580 maybe_accept( node, &FunctionDecl::returns );
581 maybe_accept( node, &FunctionDecl::type );
[c6c682cf]582 // First remember that we are now within a function.
[23f99e1]583 ValueGuard< bool > oldInFunction( inFunction );
584 inFunction = true;
[c6c682cf]585 // The function body needs to have the same scope as parameters.
586 // A CompoundStmt will not enter a new scope if atFunctionTop is true.
587 ValueGuard< bool > oldAtFunctionTop( atFunctionTop );
588 atFunctionTop = true;
[8a5530c]589 maybe_accept( node, &FunctionDecl::stmts );
[23f99e1]590 maybe_accept( node, &FunctionDecl::attributes );
[e21f253]591 }
[23f99e1]592 }
593 }
594
595 VISIT_END( DeclWithType, node );
596}
597
598//--------------------------------------------------------------------------
599// StructDecl
[7ff3e522]600template< typename core_t >
601const ast::Decl * ast::Pass< core_t >::visit( const ast::StructDecl * node ) {
[23f99e1]602 VISIT_START( node );
603
604 // make up a forward declaration and add it before processing the members
605 // needs to be on the heap because addStruct saves the pointer
[7ff3e522]606 __pass::symtab::addStructFwd( core, 0, node );
[23f99e1]607
[e21f253]608 if ( __visit_children() ) {
[0e42794]609 guard_symtab guard { * this };
[798a8b3]610 maybe_accept( node, &StructDecl::params );
611 maybe_accept( node, &StructDecl::members );
612 maybe_accept( node, &StructDecl::attributes );
[e21f253]613 }
[23f99e1]614
615 // this addition replaces the forward declaration
[7ff3e522]616 __pass::symtab::addStruct( core, 0, node );
[23f99e1]617
618 VISIT_END( Decl, node );
619}
620
621//--------------------------------------------------------------------------
622// UnionDecl
[7ff3e522]623template< typename core_t >
624const ast::Decl * ast::Pass< core_t >::visit( const ast::UnionDecl * node ) {
[23f99e1]625 VISIT_START( node );
626
627 // make up a forward declaration and add it before processing the members
[7ff3e522]628 __pass::symtab::addUnionFwd( core, 0, node );
[23f99e1]629
[e21f253]630 if ( __visit_children() ) {
[0e42794]631 guard_symtab guard { * this };
[798a8b3]632 maybe_accept( node, &UnionDecl::params );
633 maybe_accept( node, &UnionDecl::members );
634 maybe_accept( node, &UnionDecl::attributes );
[e21f253]635 }
[23f99e1]636
[7ff3e522]637 __pass::symtab::addUnion( core, 0, node );
[23f99e1]638
639 VISIT_END( Decl, node );
640}
641
642//--------------------------------------------------------------------------
643// EnumDecl
[7ff3e522]644template< typename core_t >
645const ast::Decl * ast::Pass< core_t >::visit( const ast::EnumDecl * node ) {
[23f99e1]646 VISIT_START( node );
647
[7ff3e522]648 __pass::symtab::addEnum( core, 0, node );
[23f99e1]649
[e21f253]650 if ( __visit_children() ) {
[23f99e1]651 // unlike structs, traits, and unions, enums inject their members into the global scope
[798a8b3]652 maybe_accept( node, &EnumDecl::params );
653 maybe_accept( node, &EnumDecl::members );
654 maybe_accept( node, &EnumDecl::attributes );
[e21f253]655 }
[23f99e1]656
657 VISIT_END( Decl, node );
658}
659
660//--------------------------------------------------------------------------
661// TraitDecl
[7ff3e522]662template< typename core_t >
663const ast::Decl * ast::Pass< core_t >::visit( const ast::TraitDecl * node ) {
[23f99e1]664 VISIT_START( node );
665
[e21f253]666 if ( __visit_children() ) {
[0e42794]667 guard_symtab guard { *this };
[798a8b3]668 maybe_accept( node, &TraitDecl::params );
669 maybe_accept( node, &TraitDecl::members );
670 maybe_accept( node, &TraitDecl::attributes );
[e21f253]671 }
[23f99e1]672
[7ff3e522]673 __pass::symtab::addTrait( core, 0, node );
[23f99e1]674
675 VISIT_END( Decl, node );
676}
677
678//--------------------------------------------------------------------------
679// TypeDecl
[7ff3e522]680template< typename core_t >
681const ast::Decl * ast::Pass< core_t >::visit( const ast::TypeDecl * node ) {
[23f99e1]682 VISIT_START( node );
683
[e21f253]684 if ( __visit_children() ) {
[0e42794]685 guard_symtab guard { *this };
[87701b6]686 maybe_accept( node, &TypeDecl::base );
[e21f253]687 }
[23f99e1]688
689 // see A NOTE ON THE ORDER OF TRAVERSAL, above
690 // note that assertions come after the type is added to the symtab, since they are not part of the type proper
691 // and may depend on the type itself
[7ff3e522]692 __pass::symtab::addType( core, 0, node );
[23f99e1]693
[e21f253]694 if ( __visit_children() ) {
[8a5530c]695 maybe_accept( node, &TypeDecl::assertions );
[23f99e1]696
697 {
[0e42794]698 guard_symtab guard { *this };
[23f99e1]699 maybe_accept( node, &TypeDecl::init );
700 }
[e21f253]701 }
[23f99e1]702
703 VISIT_END( Decl, node );
704}
705
706//--------------------------------------------------------------------------
707// TypedefDecl
[7ff3e522]708template< typename core_t >
709const ast::Decl * ast::Pass< core_t >::visit( const ast::TypedefDecl * node ) {
[23f99e1]710 VISIT_START( node );
711
[e21f253]712 if ( __visit_children() ) {
[0e42794]713 guard_symtab guard { *this };
[87701b6]714 maybe_accept( node, &TypedefDecl::base );
[e21f253]715 }
[23f99e1]716
[7ff3e522]717 __pass::symtab::addType( core, 0, node );
[23f99e1]718
[e21f253]719 if ( __visit_children() ) {
720 maybe_accept( node, &TypedefDecl::assertions );
721 }
[23f99e1]722
723 VISIT_END( Decl, node );
724}
725
726//--------------------------------------------------------------------------
727// AsmDecl
[7ff3e522]728template< typename core_t >
729const ast::AsmDecl * ast::Pass< core_t >::visit( const ast::AsmDecl * node ) {
[23f99e1]730 VISIT_START( node );
731
[e21f253]732 if ( __visit_children() ) {
[23f99e1]733 maybe_accept( node, &AsmDecl::stmt );
[e21f253]734 }
[23f99e1]735
736 VISIT_END( AsmDecl, node );
737}
738
[2d019af]739//--------------------------------------------------------------------------
740// DirectiveDecl
741template< typename core_t >
742const ast::DirectiveDecl * ast::Pass< core_t >::visit( const ast::DirectiveDecl * node ) {
743 VISIT_START( node );
744
[e21f253]745 if ( __visit_children() ) {
[2d019af]746 maybe_accept( node, &DirectiveDecl::stmt );
[e21f253]747 }
[2d019af]748
749 VISIT_END( DirectiveDecl, node );
750}
751
[23f99e1]752//--------------------------------------------------------------------------
753// StaticAssertDecl
[7ff3e522]754template< typename core_t >
755const ast::StaticAssertDecl * ast::Pass< core_t >::visit( const ast::StaticAssertDecl * node ) {
[23f99e1]756 VISIT_START( node );
757
[e21f253]758 if ( __visit_children() ) {
[112fe04]759 maybe_accept( node, &StaticAssertDecl::cond );
760 maybe_accept( node, &StaticAssertDecl::msg );
[e21f253]761 }
[23f99e1]762
763 VISIT_END( StaticAssertDecl, node );
764}
765
766//--------------------------------------------------------------------------
767// CompoundStmt
[7ff3e522]768template< typename core_t >
769const ast::CompoundStmt * ast::Pass< core_t >::visit( const ast::CompoundStmt * node ) {
[23f99e1]770 VISIT_START( node );
[e21f253]771
772 if ( __visit_children() ) {
[c6c682cf]773 // Do not enter (or leave) a new scope if atFunctionTop. Remember to save the result.
774 auto guard1 = makeFuncGuard( [this, enterScope = !this->atFunctionTop]() {
[16ba4a6f]775 if ( enterScope ) {
776 __pass::symtab::enter(core, 0);
777 __pass::scope::enter(core, 0);
778 }
[c6c682cf]779 }, [this, leaveScope = !this->atFunctionTop]() {
[16ba4a6f]780 if ( leaveScope ) {
781 __pass::symtab::leave(core, 0);
782 __pass::scope::leave(core, 0);
783 }
[23f99e1]784 });
[82f791f]785 ValueGuard< bool > guard2( atFunctionTop );
786 atFunctionTop = false;
[23f99e1]787 guard_scope guard3 { *this };
788 maybe_accept( node, &CompoundStmt::kids );
[e21f253]789 }
790
[23f99e1]791 VISIT_END( CompoundStmt, node );
792}
793
[8a5530c]794//--------------------------------------------------------------------------
795// ExprStmt
[7ff3e522]796template< typename core_t >
797const ast::Stmt * ast::Pass< core_t >::visit( const ast::ExprStmt * node ) {
[8a5530c]798 VISIT_START( node );
799
[e21f253]800 if ( __visit_children() ) {
[8a5530c]801 maybe_accept( node, &ExprStmt::expr );
[e21f253]802 }
[8a5530c]803
804 VISIT_END( Stmt, node );
805}
806
807//--------------------------------------------------------------------------
808// AsmStmt
[7ff3e522]809template< typename core_t >
810const ast::Stmt * ast::Pass< core_t >::visit( const ast::AsmStmt * node ) {
[8a5530c]811 VISIT_START( node )
812
[e21f253]813 if ( __visit_children() ) {
[8a5530c]814 maybe_accept( node, &AsmStmt::instruction );
815 maybe_accept( node, &AsmStmt::output );
816 maybe_accept( node, &AsmStmt::input );
817 maybe_accept( node, &AsmStmt::clobber );
[e21f253]818 }
[8a5530c]819
820 VISIT_END( Stmt, node );
821}
822
823//--------------------------------------------------------------------------
824// DirectiveStmt
[7ff3e522]825template< typename core_t >
826const ast::Stmt * ast::Pass< core_t >::visit( const ast::DirectiveStmt * node ) {
[8a5530c]827 VISIT_START( node )
828
829 VISIT_END( Stmt, node );
830}
831
832//--------------------------------------------------------------------------
833// IfStmt
[7ff3e522]834template< typename core_t >
835const ast::Stmt * ast::Pass< core_t >::visit( const ast::IfStmt * node ) {
[8a5530c]836 VISIT_START( node );
[17a0228a]837
[e21f253]838 if ( __visit_children() ) {
[8a5530c]839 // if statements introduce a level of scope (for the initialization)
[0e42794]840 guard_symtab guard { *this };
[8a5530c]841 maybe_accept( node, &IfStmt::inits );
842 maybe_accept( node, &IfStmt::cond );
[3b0bc16]843 maybe_accept_as_compound( node, &IfStmt::then );
844 maybe_accept_as_compound( node, &IfStmt::else_ );
[e21f253]845 }
[17a0228a]846
[8a5530c]847 VISIT_END( Stmt, node );
848}
849
850//--------------------------------------------------------------------------
[3b0bc16]851// WhileDoStmt
[7ff3e522]852template< typename core_t >
[3b0bc16]853const ast::Stmt * ast::Pass< core_t >::visit( const ast::WhileDoStmt * node ) {
[8a5530c]854 VISIT_START( node );
855
[e21f253]856 if ( __visit_children() ) {
[8a5530c]857 // while statements introduce a level of scope (for the initialization)
[0e42794]858 guard_symtab guard { *this };
[3b0bc16]859 maybe_accept( node, &WhileDoStmt::inits );
860 maybe_accept( node, &WhileDoStmt::cond );
861 maybe_accept_as_compound( node, &WhileDoStmt::body );
[e21f253]862 }
[8a5530c]863
864 VISIT_END( Stmt, node );
865}
[23f99e1]866
[87701b6]867//--------------------------------------------------------------------------
868// ForStmt
[7ff3e522]869template< typename core_t >
870const ast::Stmt * ast::Pass< core_t >::visit( const ast::ForStmt * node ) {
[87701b6]871 VISIT_START( node );
872
[e21f253]873 if ( __visit_children() ) {
[87701b6]874 // for statements introduce a level of scope (for the initialization)
[0e42794]875 guard_symtab guard { *this };
[490fb92e]876 // xxx - old ast does not create WithStmtsToAdd scope for loop inits. should revisit this later.
[87701b6]877 maybe_accept( node, &ForStmt::inits );
878 maybe_accept( node, &ForStmt::cond );
879 maybe_accept( node, &ForStmt::inc );
[490fb92e]880 maybe_accept_as_compound( node, &ForStmt::body );
[e21f253]881 }
[87701b6]882
883 VISIT_END( Stmt, node );
884}
885
886//--------------------------------------------------------------------------
887// SwitchStmt
[7ff3e522]888template< typename core_t >
889const ast::Stmt * ast::Pass< core_t >::visit( const ast::SwitchStmt * node ) {
[87701b6]890 VISIT_START( node );
891
[e21f253]892 if ( __visit_children() ) {
[87701b6]893 maybe_accept( node, &SwitchStmt::cond );
[400b8be]894 maybe_accept( node, &SwitchStmt::cases );
[e21f253]895 }
[87701b6]896
897 VISIT_END( Stmt, node );
898}
899
900//--------------------------------------------------------------------------
[400b8be]901// CaseClause
[7ff3e522]902template< typename core_t >
[400b8be]903const ast::CaseClause * ast::Pass< core_t >::visit( const ast::CaseClause * node ) {
[87701b6]904 VISIT_START( node );
905
[e21f253]906 if ( __visit_children() ) {
[400b8be]907 maybe_accept( node, &CaseClause::cond );
908 maybe_accept( node, &CaseClause::stmts );
[e21f253]909 }
[87701b6]910
[400b8be]911 VISIT_END( CaseClause, node );
[87701b6]912}
913
914//--------------------------------------------------------------------------
915// BranchStmt
[7ff3e522]916template< typename core_t >
917const ast::Stmt * ast::Pass< core_t >::visit( const ast::BranchStmt * node ) {
[87701b6]918 VISIT_START( node );
919 VISIT_END( Stmt, node );
920}
921
922//--------------------------------------------------------------------------
923// ReturnStmt
[7ff3e522]924template< typename core_t >
925const ast::Stmt * ast::Pass< core_t >::visit( const ast::ReturnStmt * node ) {
[87701b6]926 VISIT_START( node );
927
[e21f253]928 if ( __visit_children() ) {
[e61207e7]929 maybe_accept( node, &ReturnStmt::expr );
[e21f253]930 }
[87701b6]931
932 VISIT_END( Stmt, node );
933}
934
935//--------------------------------------------------------------------------
936// ThrowStmt
[7ff3e522]937template< typename core_t >
938const ast::Stmt * ast::Pass< core_t >::visit( const ast::ThrowStmt * node ) {
[e61207e7]939 VISIT_START( node );
[87701b6]940
[e21f253]941 if ( __visit_children() ) {
[e61207e7]942 maybe_accept( node, &ThrowStmt::expr );
943 maybe_accept( node, &ThrowStmt::target );
[e21f253]944 }
[e61207e7]945
946 VISIT_END( Stmt, node );
947}
948
949//--------------------------------------------------------------------------
950// TryStmt
[7ff3e522]951template< typename core_t >
952const ast::Stmt * ast::Pass< core_t >::visit( const ast::TryStmt * node ) {
[87701b6]953 VISIT_START( node );
954
[e21f253]955 if ( __visit_children() ) {
[acd80b4]956 maybe_accept( node, &TryStmt::body );
957 maybe_accept( node, &TryStmt::handlers );
958 maybe_accept( node, &TryStmt::finally );
[e21f253]959 }
[87701b6]960
[e61207e7]961 VISIT_END( Stmt, node );
[87701b6]962}
963
[10a1225]964//--------------------------------------------------------------------------
[400b8be]965// CatchClause
[7ff3e522]966template< typename core_t >
[400b8be]967const ast::CatchClause * ast::Pass< core_t >::visit( const ast::CatchClause * node ) {
[10a1225]968 VISIT_START( node );
969
[e21f253]970 if ( __visit_children() ) {
[10a1225]971 // catch statements introduce a level of scope (for the caught exception)
[0e42794]972 guard_symtab guard { *this };
[400b8be]973 maybe_accept( node, &CatchClause::decl );
974 maybe_accept( node, &CatchClause::cond );
975 maybe_accept_as_compound( node, &CatchClause::body );
[e21f253]976 }
[10a1225]977
[400b8be]978 VISIT_END( CatchClause, node );
[10a1225]979}
980
981//--------------------------------------------------------------------------
[400b8be]982// FinallyClause
[7ff3e522]983template< typename core_t >
[400b8be]984const ast::FinallyClause * ast::Pass< core_t >::visit( const ast::FinallyClause * node ) {
[10a1225]985 VISIT_START( node );
986
[e21f253]987 if ( __visit_children() ) {
[400b8be]988 maybe_accept( node, &FinallyClause::body );
[e21f253]989 }
[10a1225]990
[400b8be]991 VISIT_END( FinallyClause, node );
[10a1225]992}
993
[37cdd97]994//--------------------------------------------------------------------------
995// FinallyStmt
[7ff3e522]996template< typename core_t >
997const ast::Stmt * ast::Pass< core_t >::visit( const ast::SuspendStmt * node ) {
[37cdd97]998 VISIT_START( node );
999
[e21f253]1000 if ( __visit_children() ) {
[37cdd97]1001 maybe_accept( node, &SuspendStmt::then );
[e21f253]1002 }
[37cdd97]1003
1004 VISIT_END( Stmt, node );
1005}
1006
[10a1225]1007//--------------------------------------------------------------------------
1008// WaitForStmt
[7ff3e522]1009template< typename core_t >
1010const ast::Stmt * ast::Pass< core_t >::visit( const ast::WaitForStmt * node ) {
[10a1225]1011 VISIT_START( node );
1012 // for( auto & clause : node->clauses ) {
1013 // maybeAccept_impl( clause.target.function, *this );
1014 // maybeAccept_impl( clause.target.arguments, *this );
1015
1016 // maybeAccept_impl( clause.statement, *this );
1017 // maybeAccept_impl( clause.condition, *this );
1018 // }
1019
[e21f253]1020 if ( __visit_children() ) {
[e0016a5]1021 std::vector<WaitForStmt::Clause> new_clauses;
1022 new_clauses.reserve( node->clauses.size() );
1023 bool mutated = false;
1024 for( const auto & clause : node->clauses ) {
1025
[b0abc8a0]1026 const Expr * func = clause.target.func ? clause.target.func->accept(*this) : nullptr;
[e0016a5]1027 if(func != clause.target.func) mutated = true;
[f8143a6]1028 else func = nullptr;
[e0016a5]1029
1030 std::vector<ptr<Expr>> new_args;
1031 new_args.reserve(clause.target.args.size());
1032 for( const auto & arg : clause.target.args ) {
1033 auto a = arg->accept(*this);
[f8143a6]1034 if( a != arg ) {
1035 mutated = true;
1036 new_args.push_back( a );
1037 } else
1038 new_args.push_back( nullptr );
[e0016a5]1039 }
1040
[b0abc8a0]1041 const Stmt * stmt = clause.stmt ? clause.stmt->accept(*this) : nullptr;
[e0016a5]1042 if(stmt != clause.stmt) mutated = true;
[f8143a6]1043 else stmt = nullptr;
[e0016a5]1044
[b0abc8a0]1045 const Expr * cond = clause.cond ? clause.cond->accept(*this) : nullptr;
[e0016a5]1046 if(cond != clause.cond) mutated = true;
[f8143a6]1047 else cond = nullptr;
[e0016a5]1048
1049 new_clauses.push_back( WaitForStmt::Clause{ {func, std::move(new_args) }, stmt, cond } );
1050 }
1051
1052 if(mutated) {
[d3aa64f1]1053 auto n = __pass::mutate<core_t>(node);
[f8143a6]1054 for(size_t i = 0; i < new_clauses.size(); i++) {
[8631c84]1055 if(new_clauses.at(i).target.func != nullptr) swap(n->clauses.at(i).target.func, new_clauses.at(i).target.func);
[f8143a6]1056
1057 for(size_t j = 0; j < new_clauses.at(i).target.args.size(); j++) {
[8631c84]1058 if(new_clauses.at(i).target.args.at(j) != nullptr) swap(n->clauses.at(i).target.args.at(j), new_clauses.at(i).target.args.at(j));
[f8143a6]1059 }
1060
[8631c84]1061 if(new_clauses.at(i).stmt != nullptr) swap(n->clauses.at(i).stmt, new_clauses.at(i).stmt);
1062 if(new_clauses.at(i).cond != nullptr) swap(n->clauses.at(i).cond, new_clauses.at(i).cond);
[f8143a6]1063 }
[e0016a5]1064 node = n;
1065 }
[e21f253]1066 }
[e0016a5]1067
[10a1225]1068 #define maybe_accept(field) \
1069 if(node->field) { \
1070 auto nval = call_accept( node->field ); \
[f8143a6]1071 if(nval.differs ) { \
[d3aa64f1]1072 auto nparent = __pass::mutate<core_t>(node); \
[f8143a6]1073 nparent->field = nval.value; \
[10a1225]1074 node = nparent; \
1075 } \
1076 }
1077
[e21f253]1078 if ( __visit_children() ) {
[10a1225]1079 maybe_accept( timeout.time );
1080 maybe_accept( timeout.stmt );
1081 maybe_accept( timeout.cond );
1082 maybe_accept( orElse.stmt );
1083 maybe_accept( orElse.cond );
[e21f253]1084 }
[10a1225]1085
1086 #undef maybe_accept
1087
1088 VISIT_END( Stmt, node );
1089}
1090
1091//--------------------------------------------------------------------------
1092// WithStmt
[7ff3e522]1093template< typename core_t >
1094const ast::Decl * ast::Pass< core_t >::visit( const ast::WithStmt * node ) {
[10a1225]1095 VISIT_START( node );
1096
[e21f253]1097 if ( __visit_children() ) {
[10a1225]1098 maybe_accept( node, &WithStmt::exprs );
1099 {
1100 // catch statements introduce a level of scope (for the caught exception)
[0e42794]1101 guard_symtab guard { *this };
[7ff3e522]1102 __pass::symtab::addWith( core, 0, node->exprs, node );
[10a1225]1103 maybe_accept( node, &WithStmt::stmt );
1104 }
[e21f253]1105 }
1106
[10a1225]1107 VISIT_END( Stmt, node );
1108}
1109
1110//--------------------------------------------------------------------------
1111// NullStmt
[7ff3e522]1112template< typename core_t >
1113const ast::NullStmt * ast::Pass< core_t >::visit( const ast::NullStmt * node ) {
[10a1225]1114 VISIT_START( node );
1115 VISIT_END( NullStmt, node );
1116}
1117
1118//--------------------------------------------------------------------------
1119// DeclStmt
[7ff3e522]1120template< typename core_t >
1121const ast::Stmt * ast::Pass< core_t >::visit( const ast::DeclStmt * node ) {
[10a1225]1122 VISIT_START( node );
1123
[e21f253]1124 if ( __visit_children() ) {
[10a1225]1125 maybe_accept( node, &DeclStmt::decl );
[e21f253]1126 }
[10a1225]1127
1128 VISIT_END( Stmt, node );
1129}
1130
1131//--------------------------------------------------------------------------
1132// ImplicitCtorDtorStmt
[7ff3e522]1133template< typename core_t >
1134const ast::Stmt * ast::Pass< core_t >::visit( const ast::ImplicitCtorDtorStmt * node ) {
[10a1225]1135 VISIT_START( node );
1136
1137 // For now this isn't visited, it is unclear if this causes problem
1138 // if all tests are known to pass, remove this code
[e21f253]1139 if ( __visit_children() ) {
[c570806]1140 maybe_accept( node, &ImplicitCtorDtorStmt::callStmt );
[e21f253]1141 }
[10a1225]1142
1143 VISIT_END( Stmt, node );
1144}
1145
[6cebfef]1146//--------------------------------------------------------------------------
1147// MutexStmt
1148template< typename core_t >
1149const ast::Stmt * ast::Pass< core_t >::visit( const ast::MutexStmt * node ) {
1150 VISIT_START( node );
1151
[e21f253]1152 if ( __visit_children() ) {
[6cebfef]1153 // mutex statements introduce a level of scope (for the initialization)
1154 guard_symtab guard { *this };
1155 maybe_accept( node, &MutexStmt::stmt );
1156 maybe_accept( node, &MutexStmt::mutexObjs );
[e21f253]1157 }
[6cebfef]1158
1159 VISIT_END( Stmt, node );
1160}
1161
[17a0228a]1162//--------------------------------------------------------------------------
1163// ApplicationExpr
[7ff3e522]1164template< typename core_t >
1165const ast::Expr * ast::Pass< core_t >::visit( const ast::ApplicationExpr * node ) {
[17a0228a]1166 VISIT_START( node );
1167
[e21f253]1168 if ( __visit_children() ) {
[17a0228a]1169 {
[0e42794]1170 guard_symtab guard { *this };
[17a0228a]1171 maybe_accept( node, &ApplicationExpr::result );
1172 }
1173 maybe_accept( node, &ApplicationExpr::func );
1174 maybe_accept( node, &ApplicationExpr::args );
[e21f253]1175 }
[17a0228a]1176
1177 VISIT_END( Expr, node );
1178}
1179
1180//--------------------------------------------------------------------------
1181// UntypedExpr
[7ff3e522]1182template< typename core_t >
1183const ast::Expr * ast::Pass< core_t >::visit( const ast::UntypedExpr * node ) {
[17a0228a]1184 VISIT_START( node );
1185
[e21f253]1186 if ( __visit_children() ) {
[17a0228a]1187 {
[0e42794]1188 guard_symtab guard { *this };
[17a0228a]1189 maybe_accept( node, &UntypedExpr::result );
1190 }
1191
1192 maybe_accept( node, &UntypedExpr::args );
[e21f253]1193 }
[17a0228a]1194
1195 VISIT_END( Expr, node );
1196}
1197
1198//--------------------------------------------------------------------------
1199// NameExpr
[7ff3e522]1200template< typename core_t >
1201const ast::Expr * ast::Pass< core_t >::visit( const ast::NameExpr * node ) {
[17a0228a]1202 VISIT_START( node );
1203
[e21f253]1204 if ( __visit_children() ) {
[0e42794]1205 guard_symtab guard { *this };
[17a0228a]1206 maybe_accept( node, &NameExpr::result );
[e21f253]1207 }
[17a0228a]1208
1209 VISIT_END( Expr, node );
1210}
1211
1212//--------------------------------------------------------------------------
1213// CastExpr
[7ff3e522]1214template< typename core_t >
1215const ast::Expr * ast::Pass< core_t >::visit( const ast::CastExpr * node ) {
[17a0228a]1216 VISIT_START( node );
1217
[e21f253]1218 if ( __visit_children() ) {
1219 {
[0e42794]1220 guard_symtab guard { *this };
[17a0228a]1221 maybe_accept( node, &CastExpr::result );
1222 }
1223 maybe_accept( node, &CastExpr::arg );
[e21f253]1224 }
[17a0228a]1225
1226 VISIT_END( Expr, node );
1227}
1228
1229//--------------------------------------------------------------------------
1230// KeywordCastExpr
[7ff3e522]1231template< typename core_t >
1232const ast::Expr * ast::Pass< core_t >::visit( const ast::KeywordCastExpr * node ) {
[17a0228a]1233 VISIT_START( node );
1234
[e21f253]1235 if ( __visit_children() ) {
1236 {
[0e42794]1237 guard_symtab guard { *this };
[17a0228a]1238 maybe_accept( node, &KeywordCastExpr::result );
1239 }
1240 maybe_accept( node, &KeywordCastExpr::arg );
[e21f253]1241 }
[17a0228a]1242
1243 VISIT_END( Expr, node );
1244}
1245
1246//--------------------------------------------------------------------------
1247// VirtualCastExpr
[7ff3e522]1248template< typename core_t >
1249const ast::Expr * ast::Pass< core_t >::visit( const ast::VirtualCastExpr * node ) {
[17a0228a]1250 VISIT_START( node );
1251
[e21f253]1252 if ( __visit_children() ) {
1253 {
[0e42794]1254 guard_symtab guard { *this };
[17a0228a]1255 maybe_accept( node, &VirtualCastExpr::result );
1256 }
1257 maybe_accept( node, &VirtualCastExpr::arg );
[e21f253]1258 }
[17a0228a]1259
1260 VISIT_END( Expr, node );
1261}
1262
1263//--------------------------------------------------------------------------
1264// AddressExpr
[7ff3e522]1265template< typename core_t >
1266const ast::Expr * ast::Pass< core_t >::visit( const ast::AddressExpr * node ) {
[17a0228a]1267 VISIT_START( node );
1268
[e21f253]1269 if ( __visit_children() ) {
1270 {
[0e42794]1271 guard_symtab guard { *this };
[17a0228a]1272 maybe_accept( node, &AddressExpr::result );
1273 }
1274 maybe_accept( node, &AddressExpr::arg );
[e21f253]1275 }
[17a0228a]1276
1277 VISIT_END( Expr, node );
1278}
1279
1280//--------------------------------------------------------------------------
1281// LabelAddressExpr
[7ff3e522]1282template< typename core_t >
1283const ast::Expr * ast::Pass< core_t >::visit( const ast::LabelAddressExpr * node ) {
[17a0228a]1284 VISIT_START( node );
1285
[e21f253]1286 if ( __visit_children() ) {
[0e42794]1287 guard_symtab guard { *this };
[17a0228a]1288 maybe_accept( node, &LabelAddressExpr::result );
[e21f253]1289 }
[17a0228a]1290
1291 VISIT_END( Expr, node );
1292}
1293
1294//--------------------------------------------------------------------------
1295// UntypedMemberExpr
[7ff3e522]1296template< typename core_t >
1297const ast::Expr * ast::Pass< core_t >::visit( const ast::UntypedMemberExpr * node ) {
[17a0228a]1298 VISIT_START( node );
1299
[e21f253]1300 if ( __visit_children() ) {
1301 {
[0e42794]1302 guard_symtab guard { *this };
[17a0228a]1303 maybe_accept( node, &UntypedMemberExpr::result );
1304 }
1305 maybe_accept( node, &UntypedMemberExpr::aggregate );
1306 maybe_accept( node, &UntypedMemberExpr::member );
[e21f253]1307 }
[17a0228a]1308
1309 VISIT_END( Expr, node );
1310}
1311
1312//--------------------------------------------------------------------------
1313// MemberExpr
[7ff3e522]1314template< typename core_t >
1315const ast::Expr * ast::Pass< core_t >::visit( const ast::MemberExpr * node ) {
[17a0228a]1316 VISIT_START( node );
1317
[e21f253]1318 if ( __visit_children() ) {
1319 {
[0e42794]1320 guard_symtab guard { *this };
[17a0228a]1321 maybe_accept( node, &MemberExpr::result );
1322 }
1323 maybe_accept( node, &MemberExpr::aggregate );
[e21f253]1324 }
[17a0228a]1325
1326 VISIT_END( Expr, node );
1327}
1328
1329//--------------------------------------------------------------------------
1330// VariableExpr
[7ff3e522]1331template< typename core_t >
1332const ast::Expr * ast::Pass< core_t >::visit( const ast::VariableExpr * node ) {
[17a0228a]1333 VISIT_START( node );
1334
[e21f253]1335 if ( __visit_children() ) {
[0e42794]1336 guard_symtab guard { *this };
[17a0228a]1337 maybe_accept( node, &VariableExpr::result );
[e21f253]1338 }
[17a0228a]1339
1340 VISIT_END( Expr, node );
1341}
1342
1343//--------------------------------------------------------------------------
1344// ConstantExpr
[7ff3e522]1345template< typename core_t >
1346const ast::Expr * ast::Pass< core_t >::visit( const ast::ConstantExpr * node ) {
[17a0228a]1347 VISIT_START( node );
1348
[e21f253]1349 if ( __visit_children() ) {
[0e42794]1350 guard_symtab guard { *this };
[17a0228a]1351 maybe_accept( node, &ConstantExpr::result );
[e21f253]1352 }
[17a0228a]1353
1354 VISIT_END( Expr, node );
1355}
1356
1357//--------------------------------------------------------------------------
1358// SizeofExpr
[7ff3e522]1359template< typename core_t >
1360const ast::Expr * ast::Pass< core_t >::visit( const ast::SizeofExpr * node ) {
[17a0228a]1361 VISIT_START( node );
1362
[e21f253]1363 if ( __visit_children() ) {
1364 {
[0e42794]1365 guard_symtab guard { *this };
[17a0228a]1366 maybe_accept( node, &SizeofExpr::result );
1367 }
1368 if ( node->type ) {
1369 maybe_accept( node, &SizeofExpr::type );
1370 } else {
1371 maybe_accept( node, &SizeofExpr::expr );
1372 }
[e21f253]1373 }
[17a0228a]1374
1375 VISIT_END( Expr, node );
1376}
1377
1378//--------------------------------------------------------------------------
1379// AlignofExpr
[7ff3e522]1380template< typename core_t >
1381const ast::Expr * ast::Pass< core_t >::visit( const ast::AlignofExpr * node ) {
[17a0228a]1382 VISIT_START( node );
1383
[e21f253]1384 if ( __visit_children() ) {
1385 {
[0e42794]1386 guard_symtab guard { *this };
[17a0228a]1387 maybe_accept( node, &AlignofExpr::result );
1388 }
1389 if ( node->type ) {
1390 maybe_accept( node, &AlignofExpr::type );
1391 } else {
1392 maybe_accept( node, &AlignofExpr::expr );
1393 }
[e21f253]1394 }
[17a0228a]1395
1396 VISIT_END( Expr, node );
1397}
1398
1399//--------------------------------------------------------------------------
1400// UntypedOffsetofExpr
[7ff3e522]1401template< typename core_t >
1402const ast::Expr * ast::Pass< core_t >::visit( const ast::UntypedOffsetofExpr * node ) {
[17a0228a]1403 VISIT_START( node );
1404
[e21f253]1405 if ( __visit_children() ) {
1406 {
[0e42794]1407 guard_symtab guard { *this };
[17a0228a]1408 maybe_accept( node, &UntypedOffsetofExpr::result );
1409 }
1410 maybe_accept( node, &UntypedOffsetofExpr::type );
[e21f253]1411 }
[17a0228a]1412
1413 VISIT_END( Expr, node );
1414}
1415
1416//--------------------------------------------------------------------------
1417// OffsetofExpr
[7ff3e522]1418template< typename core_t >
1419const ast::Expr * ast::Pass< core_t >::visit( const ast::OffsetofExpr * node ) {
[17a0228a]1420 VISIT_START( node );
1421
[e21f253]1422 if ( __visit_children() ) {
1423 {
[0e42794]1424 guard_symtab guard { *this };
[17a0228a]1425 maybe_accept( node, &OffsetofExpr::result );
1426 }
1427 maybe_accept( node, &OffsetofExpr::type );
[e21f253]1428 }
[17a0228a]1429
1430 VISIT_END( Expr, node );
1431}
1432
1433//--------------------------------------------------------------------------
1434// OffsetPackExpr
[7ff3e522]1435template< typename core_t >
1436const ast::Expr * ast::Pass< core_t >::visit( const ast::OffsetPackExpr * node ) {
[17a0228a]1437 VISIT_START( node );
1438
[e21f253]1439 if ( __visit_children() ) {
1440 {
[0e42794]1441 guard_symtab guard { *this };
[17a0228a]1442 maybe_accept( node, &OffsetPackExpr::result );
1443 }
1444 maybe_accept( node, &OffsetPackExpr::type );
[e21f253]1445 }
[17a0228a]1446
1447 VISIT_END( Expr, node );
1448}
1449
1450//--------------------------------------------------------------------------
1451// LogicalExpr
[7ff3e522]1452template< typename core_t >
1453const ast::Expr * ast::Pass< core_t >::visit( const ast::LogicalExpr * node ) {
[17a0228a]1454 VISIT_START( node );
1455
[e21f253]1456 if ( __visit_children() ) {
1457 {
[0e42794]1458 guard_symtab guard { *this };
[17a0228a]1459 maybe_accept( node, &LogicalExpr::result );
1460 }
1461 maybe_accept( node, &LogicalExpr::arg1 );
1462 maybe_accept( node, &LogicalExpr::arg2 );
[e21f253]1463 }
[17a0228a]1464
1465 VISIT_END( Expr, node );
1466}
1467
1468//--------------------------------------------------------------------------
1469// ConditionalExpr
[7ff3e522]1470template< typename core_t >
1471const ast::Expr * ast::Pass< core_t >::visit( const ast::ConditionalExpr * node ) {
[17a0228a]1472 VISIT_START( node );
1473
[e21f253]1474 if ( __visit_children() ) {
1475 {
[0e42794]1476 guard_symtab guard { *this };
[17a0228a]1477 maybe_accept( node, &ConditionalExpr::result );
1478 }
1479 maybe_accept( node, &ConditionalExpr::arg1 );
1480 maybe_accept( node, &ConditionalExpr::arg2 );
1481 maybe_accept( node, &ConditionalExpr::arg3 );
[e21f253]1482 }
[17a0228a]1483
1484 VISIT_END( Expr, node );
1485}
[10a1225]1486
[17a0228a]1487//--------------------------------------------------------------------------
1488// CommaExpr
[7ff3e522]1489template< typename core_t >
1490const ast::Expr * ast::Pass< core_t >::visit( const ast::CommaExpr * node ) {
[17a0228a]1491 VISIT_START( node );
1492
[e21f253]1493 if ( __visit_children() ) {
1494 {
[0e42794]1495 guard_symtab guard { *this };
[17a0228a]1496 maybe_accept( node, &CommaExpr::result );
1497 }
1498 maybe_accept( node, &CommaExpr::arg1 );
1499 maybe_accept( node, &CommaExpr::arg2 );
[e21f253]1500 }
[17a0228a]1501
1502 VISIT_END( Expr, node );
1503}
1504
1505//--------------------------------------------------------------------------
1506// TypeExpr
[7ff3e522]1507template< typename core_t >
1508const ast::Expr * ast::Pass< core_t >::visit( const ast::TypeExpr * node ) {
[17a0228a]1509 VISIT_START( node );
1510
[e21f253]1511 if ( __visit_children() ) {
1512 {
[0e42794]1513 guard_symtab guard { *this };
[17a0228a]1514 maybe_accept( node, &TypeExpr::result );
1515 }
1516 maybe_accept( node, &TypeExpr::type );
[e21f253]1517 }
[17a0228a]1518
1519 VISIT_END( Expr, node );
1520}
1521
[4ec9513]1522//--------------------------------------------------------------------------
1523// DimensionExpr
1524template< typename core_t >
1525const ast::Expr * ast::Pass< core_t >::visit( const ast::DimensionExpr * node ) {
1526 VISIT_START( node );
1527
1528 if ( __visit_children() ) {
1529 guard_symtab guard { *this };
1530 maybe_accept( node, &DimensionExpr::result );
1531 }
1532
1533 VISIT_END( Expr, node );
1534}
1535
[17a0228a]1536//--------------------------------------------------------------------------
1537// AsmExpr
[7ff3e522]1538template< typename core_t >
1539const ast::Expr * ast::Pass< core_t >::visit( const ast::AsmExpr * node ) {
[17a0228a]1540 VISIT_START( node );
[10a1225]1541
[e21f253]1542 if ( __visit_children() ) {
1543 {
[0e42794]1544 guard_symtab guard { *this };
[17a0228a]1545 maybe_accept( node, &AsmExpr::result );
1546 }
1547 maybe_accept( node, &AsmExpr::constraint );
1548 maybe_accept( node, &AsmExpr::operand );
[e21f253]1549 }
[10a1225]1550
[17a0228a]1551 VISIT_END( Expr, node );
1552}
[10a1225]1553
[17a0228a]1554//--------------------------------------------------------------------------
1555// ImplicitCopyCtorExpr
[7ff3e522]1556template< typename core_t >
1557const ast::Expr * ast::Pass< core_t >::visit( const ast::ImplicitCopyCtorExpr * node ) {
[17a0228a]1558 VISIT_START( node );
1559
[e21f253]1560 if ( __visit_children() ) {
1561 {
[0e42794]1562 guard_symtab guard { *this };
[17a0228a]1563 maybe_accept( node, &ImplicitCopyCtorExpr::result );
1564 }
1565 maybe_accept( node, &ImplicitCopyCtorExpr::callExpr );
[e21f253]1566 }
[17a0228a]1567
1568 VISIT_END( Expr, node );
1569}
1570
1571//--------------------------------------------------------------------------
1572// ConstructorExpr
[7ff3e522]1573template< typename core_t >
1574const ast::Expr * ast::Pass< core_t >::visit( const ast::ConstructorExpr * node ) {
[17a0228a]1575 VISIT_START( node );
1576
[e21f253]1577 if ( __visit_children() ) {
1578 {
[0e42794]1579 guard_symtab guard { *this };
[17a0228a]1580 maybe_accept( node, &ConstructorExpr::result );
1581 }
1582 maybe_accept( node, &ConstructorExpr::callExpr );
[e21f253]1583 }
[10a1225]1584
[17a0228a]1585 VISIT_END( Expr, node );
1586}
1587
1588//--------------------------------------------------------------------------
1589// CompoundLiteralExpr
[7ff3e522]1590template< typename core_t >
1591const ast::Expr * ast::Pass< core_t >::visit( const ast::CompoundLiteralExpr * node ) {
[17a0228a]1592 VISIT_START( node );
1593
[e21f253]1594 if ( __visit_children() ) {
1595 {
[0e42794]1596 guard_symtab guard { *this };
[17a0228a]1597 maybe_accept( node, &CompoundLiteralExpr::result );
1598 }
1599 maybe_accept( node, &CompoundLiteralExpr::init );
[e21f253]1600 }
[17a0228a]1601
1602 VISIT_END( Expr, node );
1603}
1604
1605//--------------------------------------------------------------------------
1606// RangeExpr
[7ff3e522]1607template< typename core_t >
1608const ast::Expr * ast::Pass< core_t >::visit( const ast::RangeExpr * node ) {
[17a0228a]1609 VISIT_START( node );
1610
[e21f253]1611 if ( __visit_children() ) {
1612 {
[0e42794]1613 guard_symtab guard { *this };
[17a0228a]1614 maybe_accept( node, &RangeExpr::result );
1615 }
1616 maybe_accept( node, &RangeExpr::low );
1617 maybe_accept( node, &RangeExpr::high );
[e21f253]1618 }
[17a0228a]1619
1620 VISIT_END( Expr, node );
1621}
1622
1623//--------------------------------------------------------------------------
1624// UntypedTupleExpr
[7ff3e522]1625template< typename core_t >
1626const ast::Expr * ast::Pass< core_t >::visit( const ast::UntypedTupleExpr * node ) {
[17a0228a]1627 VISIT_START( node );
1628
[e21f253]1629 if ( __visit_children() ) {
1630 {
[0e42794]1631 guard_symtab guard { *this };
[17a0228a]1632 maybe_accept( node, &UntypedTupleExpr::result );
1633 }
1634 maybe_accept( node, &UntypedTupleExpr::exprs );
[e21f253]1635 }
[17a0228a]1636
1637 VISIT_END( Expr, node );
1638}
1639
1640//--------------------------------------------------------------------------
1641// TupleExpr
[7ff3e522]1642template< typename core_t >
1643const ast::Expr * ast::Pass< core_t >::visit( const ast::TupleExpr * node ) {
[17a0228a]1644 VISIT_START( node );
1645
[e21f253]1646 if ( __visit_children() ) {
1647 {
[0e42794]1648 guard_symtab guard { *this };
[17a0228a]1649 maybe_accept( node, &TupleExpr::result );
1650 }
1651 maybe_accept( node, &TupleExpr::exprs );
[e21f253]1652 }
[17a0228a]1653
1654 VISIT_END( Expr, node );
1655}
1656
1657//--------------------------------------------------------------------------
1658// TupleIndexExpr
[7ff3e522]1659template< typename core_t >
1660const ast::Expr * ast::Pass< core_t >::visit( const ast::TupleIndexExpr * node ) {
[17a0228a]1661 VISIT_START( node );
1662
[e21f253]1663 if ( __visit_children() ) {
1664 {
[0e42794]1665 guard_symtab guard { *this };
[17a0228a]1666 maybe_accept( node, &TupleIndexExpr::result );
1667 }
1668 maybe_accept( node, &TupleIndexExpr::tuple );
[e21f253]1669 }
[17a0228a]1670
1671 VISIT_END( Expr, node );
1672}
1673
1674//--------------------------------------------------------------------------
1675// TupleAssignExpr
[7ff3e522]1676template< typename core_t >
1677const ast::Expr * ast::Pass< core_t >::visit( const ast::TupleAssignExpr * node ) {
[17a0228a]1678 VISIT_START( node );
1679
[e21f253]1680 if ( __visit_children() ) {
1681 {
[0e42794]1682 guard_symtab guard { *this };
[17a0228a]1683 maybe_accept( node, &TupleAssignExpr::result );
1684 }
1685 maybe_accept( node, &TupleAssignExpr::stmtExpr );
[e21f253]1686 }
[17a0228a]1687
1688 VISIT_END( Expr, node );
1689}
1690
1691//--------------------------------------------------------------------------
1692// StmtExpr
[7ff3e522]1693template< typename core_t >
1694const ast::Expr * ast::Pass< core_t >::visit( const ast::StmtExpr * node ) {
[17a0228a]1695 VISIT_START( node );
1696
[e21f253]1697 if ( __visit_children() ) {
1698 // don't want statements from outer CompoundStmts to be added to this StmtExpr
[17a0228a]1699 // get the stmts that will need to be spliced in
[7ff3e522]1700 auto stmts_before = __pass::stmtsToAddBefore( core, 0);
1701 auto stmts_after = __pass::stmtsToAddAfter ( core, 0);
[17a0228a]1702
1703 // These may be modified by subnode but most be restored once we exit this statemnet.
[b2a11ba]1704 ValueGuardPtr< const ast::TypeSubstitution * > __old_env( __pass::typeSubs( core, 0 ) );
[17a0228a]1705 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_before) >::type > __old_decls_before( stmts_before );
1706 ValueGuardPtr< typename std::remove_pointer< decltype(stmts_after ) >::type > __old_decls_after ( stmts_after );
1707
1708 {
[0e42794]1709 guard_symtab guard { *this };
[17a0228a]1710 maybe_accept( node, &StmtExpr::result );
1711 }
1712 maybe_accept( node, &StmtExpr::stmts );
1713 maybe_accept( node, &StmtExpr::returnDecls );
1714 maybe_accept( node, &StmtExpr::dtors );
[e21f253]1715 }
[17a0228a]1716
1717 VISIT_END( Expr, node );
1718}
1719
1720//--------------------------------------------------------------------------
1721// UniqueExpr
[7ff3e522]1722template< typename core_t >
1723const ast::Expr * ast::Pass< core_t >::visit( const ast::UniqueExpr * node ) {
[17a0228a]1724 VISIT_START( node );
1725
[e21f253]1726 if ( __visit_children() ) {
1727 {
[0e42794]1728 guard_symtab guard { *this };
[17a0228a]1729 maybe_accept( node, &UniqueExpr::result );
1730 }
1731 maybe_accept( node, &UniqueExpr::expr );
[e21f253]1732 }
[17a0228a]1733
1734 VISIT_END( Expr, node );
1735}
1736
1737//--------------------------------------------------------------------------
1738// UntypedInitExpr
[7ff3e522]1739template< typename core_t >
1740const ast::Expr * ast::Pass< core_t >::visit( const ast::UntypedInitExpr * node ) {
[17a0228a]1741 VISIT_START( node );
1742
[e21f253]1743 if ( __visit_children() ) {
1744 {
[0e42794]1745 guard_symtab guard { *this };
[17a0228a]1746 maybe_accept( node, &UntypedInitExpr::result );
1747 }
1748 maybe_accept( node, &UntypedInitExpr::expr );
1749 // not currently visiting initAlts, but this doesn't matter since this node is only used in the resolver.
[e21f253]1750 }
[17a0228a]1751
1752 VISIT_END( Expr, node );
1753}
1754
1755//--------------------------------------------------------------------------
1756// InitExpr
[7ff3e522]1757template< typename core_t >
1758const ast::Expr * ast::Pass< core_t >::visit( const ast::InitExpr * node ) {
[17a0228a]1759 VISIT_START( node );
1760
[e21f253]1761 if ( __visit_children() ) {
1762 {
[0e42794]1763 guard_symtab guard { *this };
[17a0228a]1764 maybe_accept( node, &InitExpr::result );
1765 }
1766 maybe_accept( node, &InitExpr::expr );
1767 maybe_accept( node, &InitExpr::designation );
[e21f253]1768 }
[17a0228a]1769
1770 VISIT_END( Expr, node );
1771}
1772
1773//--------------------------------------------------------------------------
1774// DeletedExpr
[7ff3e522]1775template< typename core_t >
1776const ast::Expr * ast::Pass< core_t >::visit( const ast::DeletedExpr * node ) {
[17a0228a]1777 VISIT_START( node );
1778
[e21f253]1779 if ( __visit_children() ) {
1780 {
[0e42794]1781 guard_symtab guard { *this };
[17a0228a]1782 maybe_accept( node, &DeletedExpr::result );
1783 }
1784 maybe_accept( node, &DeletedExpr::expr );
1785 // don't visit deleteStmt, because it is a pointer to somewhere else in the tree.
[e21f253]1786 }
[17a0228a]1787
1788 VISIT_END( Expr, node );
1789}
1790
1791//--------------------------------------------------------------------------
1792// DefaultArgExpr
[7ff3e522]1793template< typename core_t >
1794const ast::Expr * ast::Pass< core_t >::visit( const ast::DefaultArgExpr * node ) {
[17a0228a]1795 VISIT_START( node );
1796
[e21f253]1797 if ( __visit_children() ) {
1798 {
[0e42794]1799 guard_symtab guard { *this };
[17a0228a]1800 maybe_accept( node, &DefaultArgExpr::result );
1801 }
1802 maybe_accept( node, &DefaultArgExpr::expr );
[e21f253]1803 }
[17a0228a]1804
1805 VISIT_END( Expr, node );
1806}
1807
1808//--------------------------------------------------------------------------
1809// GenericExpr
[7ff3e522]1810template< typename core_t >
1811const ast::Expr * ast::Pass< core_t >::visit( const ast::GenericExpr * node ) {
[17a0228a]1812 VISIT_START( node );
1813
[e21f253]1814 if ( __visit_children() ) {
1815 {
[0e42794]1816 guard_symtab guard { *this };
[17a0228a]1817 maybe_accept( node, &GenericExpr::result );
1818 }
1819 maybe_accept( node, &GenericExpr::control );
1820
1821 std::vector<GenericExpr::Association> new_kids;
1822 new_kids.reserve(node->associations.size());
1823 bool mutated = false;
1824 for( const auto & assoc : node->associations ) {
[b0abc8a0]1825 const Type * type = nullptr;
[17a0228a]1826 if( assoc.type ) {
[0e42794]1827 guard_symtab guard { *this };
[17a0228a]1828 type = assoc.type->accept( *this );
1829 if( type != assoc.type ) mutated = true;
1830 }
[b0abc8a0]1831 const Expr * expr = nullptr;
[17a0228a]1832 if( assoc.expr ) {
1833 expr = assoc.expr->accept( *this );
1834 if( expr != assoc.expr ) mutated = true;
1835 }
1836 new_kids.emplace_back( type, expr );
1837 }
1838
1839 if(mutated) {
[d3aa64f1]1840 auto n = __pass::mutate<core_t>(node);
[17a0228a]1841 n->associations = std::move( new_kids );
1842 node = n;
1843 }
[e21f253]1844 }
[17a0228a]1845
1846 VISIT_END( Expr, node );
1847}
[10a1225]1848
[e0016a5]1849//--------------------------------------------------------------------------
1850// VoidType
[7ff3e522]1851template< typename core_t >
1852const ast::Type * ast::Pass< core_t >::visit( const ast::VoidType * node ) {
[e0016a5]1853 VISIT_START( node );
[10a1225]1854
[e0016a5]1855 VISIT_END( Type, node );
1856}
[10a1225]1857
[e0016a5]1858//--------------------------------------------------------------------------
1859// BasicType
[7ff3e522]1860template< typename core_t >
1861const ast::Type * ast::Pass< core_t >::visit( const ast::BasicType * node ) {
[e0016a5]1862 VISIT_START( node );
1863
1864 VISIT_END( Type, node );
1865}
1866
1867//--------------------------------------------------------------------------
1868// PointerType
[7ff3e522]1869template< typename core_t >
1870const ast::Type * ast::Pass< core_t >::visit( const ast::PointerType * node ) {
[e0016a5]1871 VISIT_START( node );
1872
[e21f253]1873 if ( __visit_children() ) {
[4ec9513]1874 maybe_accept( node, &PointerType::dimension );
[e0016a5]1875 maybe_accept( node, &PointerType::base );
[e21f253]1876 }
[e0016a5]1877
1878 VISIT_END( Type, node );
1879}
1880
1881//--------------------------------------------------------------------------
1882// ArrayType
[7ff3e522]1883template< typename core_t >
1884const ast::Type * ast::Pass< core_t >::visit( const ast::ArrayType * node ) {
[e0016a5]1885 VISIT_START( node );
1886
[e21f253]1887 if ( __visit_children() ) {
[e0016a5]1888 maybe_accept( node, &ArrayType::dimension );
1889 maybe_accept( node, &ArrayType::base );
[e21f253]1890 }
[e0016a5]1891
1892 VISIT_END( Type, node );
1893}
1894
1895//--------------------------------------------------------------------------
1896// ReferenceType
[7ff3e522]1897template< typename core_t >
1898const ast::Type * ast::Pass< core_t >::visit( const ast::ReferenceType * node ) {
[e0016a5]1899 VISIT_START( node );
1900
[e21f253]1901 if ( __visit_children() ) {
[e0016a5]1902 maybe_accept( node, &ReferenceType::base );
[e21f253]1903 }
[e0016a5]1904
1905 VISIT_END( Type, node );
1906}
1907
1908//--------------------------------------------------------------------------
1909// QualifiedType
[7ff3e522]1910template< typename core_t >
1911const ast::Type * ast::Pass< core_t >::visit( const ast::QualifiedType * node ) {
[e0016a5]1912 VISIT_START( node );
1913
[e21f253]1914 if ( __visit_children() ) {
[e0016a5]1915 maybe_accept( node, &QualifiedType::parent );
1916 maybe_accept( node, &QualifiedType::child );
[e21f253]1917 }
[e0016a5]1918
1919 VISIT_END( Type, node );
1920}
1921
1922//--------------------------------------------------------------------------
1923// FunctionType
[7ff3e522]1924template< typename core_t >
1925const ast::Type * ast::Pass< core_t >::visit( const ast::FunctionType * node ) {
[e0016a5]1926 VISIT_START( node );
1927
[e21f253]1928 if ( __visit_children() ) {
[3e5dd913]1929 // guard_forall_subs forall_guard { *this, node };
1930 // mutate_forall( node );
1931 maybe_accept( node, &FunctionType::assertions );
[e0016a5]1932 maybe_accept( node, &FunctionType::returns );
1933 maybe_accept( node, &FunctionType::params );
[e21f253]1934 }
[e0016a5]1935
1936 VISIT_END( Type, node );
1937}
1938
1939//--------------------------------------------------------------------------
1940// StructInstType
[7ff3e522]1941template< typename core_t >
1942const ast::Type * ast::Pass< core_t >::visit( const ast::StructInstType * node ) {
[e0016a5]1943 VISIT_START( node );
1944
[7ff3e522]1945 __pass::symtab::addStruct( core, 0, node->name );
[e0016a5]1946
[e21f253]1947 if ( __visit_children() ) {
[0e42794]1948 guard_symtab guard { *this };
[e0016a5]1949 maybe_accept( node, &StructInstType::params );
[e21f253]1950 }
[e0016a5]1951
1952 VISIT_END( Type, node );
1953}
1954
1955//--------------------------------------------------------------------------
1956// UnionInstType
[7ff3e522]1957template< typename core_t >
1958const ast::Type * ast::Pass< core_t >::visit( const ast::UnionInstType * node ) {
[e0016a5]1959 VISIT_START( node );
1960
[7ff3e522]1961 __pass::symtab::addUnion( core, 0, node->name );
[e0016a5]1962
[e21f253]1963 if ( __visit_children() ) {
[0e42794]1964 guard_symtab guard { *this };
[e0016a5]1965 maybe_accept( node, &UnionInstType::params );
[e21f253]1966 }
[e0016a5]1967
1968 VISIT_END( Type, node );
1969}
1970
1971//--------------------------------------------------------------------------
1972// EnumInstType
[7ff3e522]1973template< typename core_t >
1974const ast::Type * ast::Pass< core_t >::visit( const ast::EnumInstType * node ) {
[e0016a5]1975 VISIT_START( node );
1976
[e21f253]1977 if ( __visit_children() ) {
[e0016a5]1978 maybe_accept( node, &EnumInstType::params );
[e21f253]1979 }
[e0016a5]1980
1981 VISIT_END( Type, node );
1982}
1983
1984//--------------------------------------------------------------------------
1985// TraitInstType
[7ff3e522]1986template< typename core_t >
1987const ast::Type * ast::Pass< core_t >::visit( const ast::TraitInstType * node ) {
[e0016a5]1988 VISIT_START( node );
1989
[e21f253]1990 if ( __visit_children() ) {
[e0016a5]1991 maybe_accept( node, &TraitInstType::params );
[e21f253]1992 }
[e0016a5]1993
1994 VISIT_END( Type, node );
1995}
1996
1997//--------------------------------------------------------------------------
1998// TypeInstType
[7ff3e522]1999template< typename core_t >
2000const ast::Type * ast::Pass< core_t >::visit( const ast::TypeInstType * node ) {
[e0016a5]2001 VISIT_START( node );
2002
[e21f253]2003 if ( __visit_children() ) {
[e0e9a0b]2004 {
2005 maybe_accept( node, &TypeInstType::params );
2006 }
2007 // ensure that base re-bound if doing substitution
[7ff3e522]2008 __pass::forall::replace( core, 0, node );
[e21f253]2009 }
[e0016a5]2010
2011 VISIT_END( Type, node );
2012}
2013
2014//--------------------------------------------------------------------------
2015// TupleType
[7ff3e522]2016template< typename core_t >
2017const ast::Type * ast::Pass< core_t >::visit( const ast::TupleType * node ) {
[e0016a5]2018 VISIT_START( node );
2019
[e21f253]2020 if ( __visit_children() ) {
[e0016a5]2021 maybe_accept( node, &TupleType::types );
2022 maybe_accept( node, &TupleType::members );
[e21f253]2023 }
[e0016a5]2024
2025 VISIT_END( Type, node );
2026}
2027
2028//--------------------------------------------------------------------------
2029// TypeofType
[7ff3e522]2030template< typename core_t >
2031const ast::Type * ast::Pass< core_t >::visit( const ast::TypeofType * node ) {
[e0016a5]2032 VISIT_START( node );
2033
[e21f253]2034 if ( __visit_children() ) {
[e0016a5]2035 maybe_accept( node, &TypeofType::expr );
[e21f253]2036 }
[e0016a5]2037
2038 VISIT_END( Type, node );
2039}
2040
[3945abe]2041//--------------------------------------------------------------------------
2042// VTableType
2043template< typename core_t >
2044const ast::Type * ast::Pass< core_t >::visit( const ast::VTableType * node ) {
2045 VISIT_START( node );
2046
[e21f253]2047 if ( __visit_children() ) {
[3945abe]2048 maybe_accept( node, &VTableType::base );
[e21f253]2049 }
[3945abe]2050
2051 VISIT_END( Type, node );
2052}
2053
[e0016a5]2054//--------------------------------------------------------------------------
2055// VarArgsType
[7ff3e522]2056template< typename core_t >
2057const ast::Type * ast::Pass< core_t >::visit( const ast::VarArgsType * node ) {
[e0016a5]2058 VISIT_START( node );
2059
2060 VISIT_END( Type, node );
2061}
2062
2063//--------------------------------------------------------------------------
2064// ZeroType
[7ff3e522]2065template< typename core_t >
2066const ast::Type * ast::Pass< core_t >::visit( const ast::ZeroType * node ) {
[e0016a5]2067 VISIT_START( node );
2068
2069 VISIT_END( Type, node );
2070}
2071
2072//--------------------------------------------------------------------------
2073// OneType
[7ff3e522]2074template< typename core_t >
2075const ast::Type * ast::Pass< core_t >::visit( const ast::OneType * node ) {
[e0016a5]2076 VISIT_START( node );
2077
2078 VISIT_END( Type, node );
2079}
2080
2081//--------------------------------------------------------------------------
2082// GlobalScopeType
[7ff3e522]2083template< typename core_t >
2084const ast::Type * ast::Pass< core_t >::visit( const ast::GlobalScopeType * node ) {
[e0016a5]2085 VISIT_START( node );
2086
2087 VISIT_END( Type, node );
2088}
2089
2090
2091//--------------------------------------------------------------------------
2092// Designation
[7ff3e522]2093template< typename core_t >
2094const ast::Designation * ast::Pass< core_t >::visit( const ast::Designation * node ) {
[e0016a5]2095 VISIT_START( node );
2096
[e21f253]2097 if ( __visit_children() ) {
2098 maybe_accept( node, &Designation::designators );
2099 }
[e0016a5]2100
2101 VISIT_END( Designation, node );
2102}
[10a1225]2103
[6d51bd7]2104//--------------------------------------------------------------------------
2105// SingleInit
[7ff3e522]2106template< typename core_t >
2107const ast::Init * ast::Pass< core_t >::visit( const ast::SingleInit * node ) {
[6d51bd7]2108 VISIT_START( node );
2109
[e21f253]2110 if ( __visit_children() ) {
[6d51bd7]2111 maybe_accept( node, &SingleInit::value );
[e21f253]2112 }
[6d51bd7]2113
2114 VISIT_END( Init, node );
2115}
2116
2117//--------------------------------------------------------------------------
2118// ListInit
[7ff3e522]2119template< typename core_t >
2120const ast::Init * ast::Pass< core_t >::visit( const ast::ListInit * node ) {
[6d51bd7]2121 VISIT_START( node );
2122
[e21f253]2123 if ( __visit_children() ) {
[6d51bd7]2124 maybe_accept( node, &ListInit::designations );
2125 maybe_accept( node, &ListInit::initializers );
[e21f253]2126 }
[6d51bd7]2127
2128 VISIT_END( Init, node );
2129}
2130
2131//--------------------------------------------------------------------------
2132// ConstructorInit
[7ff3e522]2133template< typename core_t >
2134const ast::Init * ast::Pass< core_t >::visit( const ast::ConstructorInit * node ) {
[6d51bd7]2135 VISIT_START( node );
2136
[e21f253]2137 if ( __visit_children() ) {
[6d51bd7]2138 maybe_accept( node, &ConstructorInit::ctor );
2139 maybe_accept( node, &ConstructorInit::dtor );
2140 maybe_accept( node, &ConstructorInit::init );
[e21f253]2141 }
[6d51bd7]2142
2143 VISIT_END( Init, node );
2144}
2145
[f47f887]2146//--------------------------------------------------------------------------
2147// Attribute
[7ff3e522]2148template< typename core_t >
2149const ast::Attribute * ast::Pass< core_t >::visit( const ast::Attribute * node ) {
[6d51bd7]2150 VISIT_START( node );
[f47f887]2151
[e21f253]2152 if ( __visit_children() ) {
[489bacf]2153 maybe_accept( node, &Attribute::params );
[e21f253]2154 }
[f47f887]2155
[8a5530c]2156 VISIT_END( Attribute, node );
[f47f887]2157}
2158
2159//--------------------------------------------------------------------------
2160// TypeSubstitution
[7ff3e522]2161template< typename core_t >
2162const ast::TypeSubstitution * ast::Pass< core_t >::visit( const ast::TypeSubstitution * node ) {
[6d51bd7]2163 VISIT_START( node );
[f47f887]2164
[e21f253]2165 if ( __visit_children() ) {
[8631c84]2166 bool mutated = false;
2167 std::unordered_map< ast::TypeInstType::TypeEnvKey, ast::ptr< ast::Type > > new_map;
2168 for ( const auto & p : node->typeEnv ) {
2169 guard_symtab guard { *this };
2170 auto new_node = p.second->accept( *this );
2171 if (new_node != p.second) mutated = true;
2172 new_map.insert({ p.first, new_node });
2173 }
2174 if (mutated) {
2175 auto new_node = __pass::mutate<core_t>( node );
2176 new_node->typeEnv.swap( new_map );
2177 node = new_node;
[6d51bd7]2178 }
[e21f253]2179 }
[f47f887]2180
[6d51bd7]2181 VISIT_END( TypeSubstitution, node );
[f47f887]2182}
2183
2184#undef VISIT_START
[112fe04]2185#undef VISIT_END
Note: See TracBrowser for help on using the repository browser.