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source: src/Parser/ExpressionNode.cc@ b8116cd

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Last change on this file since b8116cd was 201aeb9, checked in by Peter A. Buhr <pabuhr@…>, 8 years ago
first attempt at new basic-type int128, and length suffix with explicit size
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File size: 20.7 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// ExpressionNode.cc --
8	//
9	// Author : Peter A. Buhr
10	// Created On : Sat May 16 13:17:07 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Tue Sep 26 11:23:36 2017
13	// Update Count : 780
14	//
15
16	#include <cassert> // for assert
17	#include <stdio.h> // for sscanf, size_t
18	#include <climits> // for LLONG_MAX, LONG_MAX, INT_MAX, UINT...
19	#include <list> // for list
20	#include <sstream> // for basic_istream::operator>>, basic_i...
21	#include <string> // for string, operator+, operator==
22
23	#include "Common/SemanticError.h" // for SemanticError
24	#include "Common/utility.h" // for maybeMoveBuild, maybeBuild, CodeLo...
25	#include "ParseNode.h" // for ExpressionNode, maybeMoveBuildType
26	#include "SynTree/Constant.h" // for Constant
27	#include "SynTree/Declaration.h" // for EnumDecl, StructDecl, UnionDecl
28	#include "SynTree/Expression.h" // for Expression, ConstantExpr, NameExpr
29	#include "SynTree/Statement.h" // for CompoundStmt, Statement
30	#include "SynTree/Type.h" // for BasicType, Type, Type::Qualifiers
31	#include "parserutility.h" // for notZeroExpr
32
33	class Initializer;
34
35	using namespace std;
36
37	//##############################################################################
38
39	// Difficult to separate extra parts of constants during lexing because actions are not allow in the middle of patterns:
40	//
41	// prefix action constant action suffix
42	//
43	// Alternatively, breaking a pattern using BEGIN does not work if the following pattern can be empty:
44	//
45	// constant BEGIN CONT ...
46	// <CONT>(...)? BEGIN 0 ... // possible empty suffix
47	//
48	// because the CONT rule is NOT triggered if the pattern is empty. Hence, constants are reparsed here to determine their
49	// type.
50
51	extern const Type::Qualifiers noQualifiers; // no qualifiers on constants
52
53	static inline bool checkH( char c ) { return c == 'h' \|\| c == 'H'; }
54	static inline bool checkL( char c ) { return c == 'l' \|\| c == 'L'; }
55	static inline bool checkZ( char c ) { return c == 'z' \|\| c == 'Z'; }
56	static inline bool checkU( char c ) { return c == 'u' \|\| c == 'U'; }
57	static inline bool checkF( char c ) { return c == 'f' \|\| c == 'F'; }
58	static inline bool checkD( char c ) { return c == 'd' \|\| c == 'D'; }
59	static inline bool checkI( char c ) { return c == 'i' \|\| c == 'I'; }
60	static inline bool checkX( char c ) { return c == 'x' \|\| c == 'X'; }
61
62	static const char * lnthsInt[2][6] = {
63	{ "int8_t", "int16_t", "int32_t", "int64_t", "size_t", },
64	{ "uint8_t", "uint16_t", "uint32_t", "uint64_t", "size_t", }
65	}; // lnthsInt
66
67	static inline void checkLNInt( string & str, int & lnth, int & size ) {
68	string::size_type posn = str.find_first_of( "lL" ), start = posn;
69	if ( posn == string::npos ) return;
70	size = 4; // assume largest size
71	posn += 1; // advance to size
72	if ( str[posn] == '8' ) { // 8
73	lnth = 0;
74	} else if ( str[posn] == '1' ) {
75	posn += 1;
76	if ( str[posn] == '6' ) { // 16
77	lnth = 1;
78	} else { // 128
79	posn += 1;
80	lnth = 5;
81	} // if
82	} else {
83	if ( str[posn] == '3' ) { // 32
84	lnth = 2;
85	} else if ( str[posn] == '6' ) { // 64
86	lnth = 3;
87	} else {
88	assertf( false, "internal error, bad integral length %s", str.c_str() );
89	} // if
90	posn += 1;
91	} // if
92	str.erase( start, posn - start + 1 ); // remove length suffix
93	} // checkLNInt
94
95	static void sepNumeric( string & str, string & units ) {
96	string::size_type posn = str.find_first_of( "`" );
97	if ( posn != string::npos ) {
98	units = "?" + str.substr( posn ); // extract units
99	str.erase( posn ); // remove units
100	} // if
101	} // sepNumeric
102
103	Expression * build_constantInteger( string & str ) {
104	static const BasicType::Kind kind[2][6] = {
105	// short (h) must be before char (hh)
106	{ BasicType::ShortSignedInt, BasicType::SignedChar, BasicType::SignedInt, BasicType::LongSignedInt, BasicType::LongLongSignedInt, BasicType::SignedInt128, },
107	{ BasicType::ShortUnsignedInt, BasicType::UnsignedChar, BasicType::UnsignedInt, BasicType::LongUnsignedInt, BasicType::LongLongUnsignedInt, BasicType::UnsignedInt128, },
108	};
109
110	string units;
111	sepNumeric( str, units ); // separate constant from units
112
113	bool dec = true, Unsigned = false; // decimal, unsigned constant
114	int size; // 0 => short, 1 => char, 2 => int, 3 => long int, 4 => long long int, 5 => int128
115	int lnth = -1; // literal length
116
117	unsigned long long int v; // converted integral value
118	size_t last = str.length() - 1; // last character of constant
119	Expression * ret;
120
121	// special constants
122	if ( str == "0" ) {
123	ret = new ConstantExpr( Constant( (Type *)new ZeroType( noQualifiers ), str, (unsigned long long int)0 ) );
124	goto CLEANUP;
125	} // if
126	if ( str == "1" ) {
127	ret = new ConstantExpr( Constant( (Type *)new OneType( noQualifiers ), str, (unsigned long long int)1 ) );
128	goto CLEANUP;
129	} // if
130
131	if ( str[0] == '0' ) { // octal/hex constant ?
132	dec = false;
133	if ( last != 0 && checkX( str[1] ) ) { // hex constant ?
134	sscanf( (char *)str.c_str(), "%llx", &v );
135	//printf( "%llx %llu\n", v, v );
136	} else { // octal constant
137	sscanf( (char *)str.c_str(), "%llo", &v );
138	//printf( "%llo %llu\n", v, v );
139	} // if
140	} else { // decimal constant ?
141	sscanf( (char *)str.c_str(), "%llu", &v );
142	//printf( "%llu %llu\n", v, v );
143	} // if
144
145	if ( v <= INT_MAX ) { // signed int
146	size = 2;
147	} else if ( v <= UINT_MAX && ! dec ) { // unsigned int
148	size = 2;
149	Unsigned = true; // unsigned
150	} else if ( v <= LONG_MAX ) { // signed long int
151	size = 3;
152	} else if ( v <= ULONG_MAX && ( ! dec \|\| LONG_MAX == LLONG_MAX ) ) { // signed long int
153	size = 3;
154	Unsigned = true; // unsigned long int
155	} else if ( v <= LLONG_MAX ) { // signed long long int
156	size = 4;
157	} else { // unsigned long long int
158	size = 4;
159	Unsigned = true; // unsigned long long int
160	} // if
161
162	// At least one digit in integer constant, so safe to backup while looking for suffix.
163
164	if ( checkU( str[last] ) ) { // suffix 'u' ?
165	Unsigned = true;
166	if ( checkL( str[last - 1] ) ) { // suffix 'l' ?
167	size = 3;
168	if ( checkL( str[last - 2] ) ) { // suffix "ll" ?
169	size = 4;
170	} // if
171	} else if ( checkH( str[last - 1] ) ) { // suffix 'h' ?
172	size = 0;
173	if ( checkH( str[last - 2] ) ) { // suffix "hh" ?
174	size = 1;
175	} // if
176	str.erase( last - size - 1, size + 1 ); // remove 'h'/"hh"
177	} else { // suffix "ln" ?
178	checkLNInt( str, lnth, size );
179	} // if
180	} else if ( checkL( str[ last ] ) ) { // suffix 'l' ?
181	size = 3;
182	if ( checkL( str[last - 1] ) ) { // suffix 'll' ?
183	size = 4;
184	if ( checkU( str[last - 2] ) ) { // suffix 'u' ?
185	Unsigned = true;
186	} // if
187	} else if ( checkU( str[last - 1] ) ) { // suffix 'u' ?
188	Unsigned = true;
189	} // if
190	} else if ( checkH( str[ last ] ) ) { // suffix 'h' ?
191	size = 0;
192	if ( checkH( str[last - 1] ) ) { // suffix "hh" ?
193	size = 1;
194	if ( checkU( str[last - 2] ) ) { // suffix 'u' ?
195	Unsigned = true;
196	} // if
197	} else if ( checkU( str[last - 1] ) ) { // suffix 'u' ?
198	Unsigned = true;
199	} // if
200	str.erase( last - size, size + 1 ); // remove 'h'/"hh"
201	} else if ( checkZ( str[last] ) ) { // suffix 'z' ?
202	lnth = 4;
203	str.erase( last, 1 ); // remove 'z'
204	} else { // suffix "ln" ?
205	checkLNInt( str, lnth, size );
206	} // if
207
208	assert( 0 <= size && size < 6 );
209	ret = new ConstantExpr( Constant( new BasicType( noQualifiers, kind[Unsigned][size] ), str, v ) );
210	if ( size < 2 ) { // hh or h, less than int ?
211	// int i = -1uh => 65535 not -1, so cast is necessary for unsigned, which unfortunately eliminates warnings for large values.
212	ret = new CastExpr( ret, new BasicType( Type::Qualifiers(), kind[Unsigned][size] ) );
213	} else if ( lnth != -1 ) { // explicit length ?
214	if ( lnth == 5 ) { // int128 ?
215	size = 5;
216	ret = new CastExpr( ret, new BasicType( Type::Qualifiers(), kind[Unsigned][size] ) );
217	} else {
218	ret = new CastExpr( ret, new TypeInstType( Type::Qualifiers(), lnthsInt[Unsigned][lnth], false ) );
219	} // if
220	} // if
221	CLEANUP:
222	if ( units.length() != 0 ) {
223	ret = new UntypedExpr( new NameExpr( units ), { ret } );
224	} // if
225
226	delete &str; // created by lex
227	return ret;
228	} // build_constantInteger
229
230
231	static inline void checkLNFloat( string & str, int & lnth, int & size ) {
232	string::size_type posn = str.find_first_of( "lL" ), start = posn;
233	if ( posn == string::npos ) return;
234	size = 2; // assume largest size
235	lnth = 0;
236	posn += 1; // advance to size
237	if ( str[posn] == '3' ) { // 32
238	size = 0;
239	} else if ( str[posn] == '6' ) { // 64
240	size = 1;
241	} else if ( str[posn] == '8' \|\| str[posn] == '1' ) { // 80, 128
242	size = 2;
243	if ( str[posn] == '1' ) posn += 1;
244	} else {
245	assertf( false, "internal error, bad floating point length %s", str.c_str() );
246	} // if
247	posn += 1;
248	str.erase( start, posn - start + 1 ); // remove length suffix
249	} // checkLNFloat
250
251
252	Expression * build_constantFloat( string & str ) {
253	static const BasicType::Kind kind[2][3] = {
254	{ BasicType::Float, BasicType::Double, BasicType::LongDouble },
255	{ BasicType::FloatComplex, BasicType::DoubleComplex, BasicType::LongDoubleComplex },
256	};
257
258	string units;
259	sepNumeric( str, units ); // separate constant from units
260
261	bool complx = false; // real, complex
262	int size = 1; // 0 => float, 1 => double, 2 => long double
263	int lnth = -1; // literal length
264	// floating-point constant has minimum of 2 characters: 1. or .1
265	size_t last = str.length() - 1;
266	double v;
267
268	sscanf( str.c_str(), "%lg", &v );
269
270	if ( checkI( str[last] ) ) { // imaginary ?
271	complx = true;
272	last -= 1; // backup one character
273	} // if
274
275	if ( checkF( str[last] ) ) { // float ?
276	size = 0;
277	} else if ( checkD( str[last] ) ) { // double ?
278	size = 1;
279	} else if ( checkL( str[last] ) ) { // long double ?
280	size = 2;
281	} else {
282	size = 1; // double (default)
283	checkLNFloat( str, lnth, size );
284	} // if
285	if ( ! complx && checkI( str[last - 1] ) ) { // imaginary ?
286	complx = true;
287	} // if
288
289	assert( 0 <= size && size < 3 );
290	Expression * ret = new ConstantExpr( Constant( new BasicType( noQualifiers, kind[complx][size] ), str, v ) );
291	if ( lnth != -1 ) { // explicit length ?
292	ret = new CastExpr( ret, new BasicType( Type::Qualifiers(), kind[complx][size] ) );
293	} // if
294	if ( units.length() != 0 ) {
295	ret = new UntypedExpr( new NameExpr( units ), { ret } );
296	} // if
297
298	delete &str; // created by lex
299	return ret;
300	} // build_constantFloat
301
302	static void sepString( string & str, string & units, char delimit ) {
303	string::size_type posn = str.find_last_of( delimit ) + 1;
304	if ( posn != str.length() ) {
305	units = "?" + str.substr( posn ); // extract units
306	str.erase( posn ); // remove units
307	} // if
308	} // sepString
309
310	Expression * build_constantChar( string & str ) {
311	string units; // units
312	sepString( str, units, '\'' ); // separate constant from units
313
314	Expression * ret = new ConstantExpr( Constant( new BasicType( noQualifiers, BasicType::Char ), str, (unsigned long long int)(unsigned char)str[1] ) );
315	if ( units.length() != 0 ) {
316	ret = new UntypedExpr( new NameExpr( units ), { ret } );
317	} // if
318
319	delete &str; // created by lex
320	return ret;
321	} // build_constantChar
322
323	Expression * build_constantStr( string & str ) {
324	string units; // units
325	sepString( str, units, '"' ); // separate constant from units
326
327	Type * strtype;
328	switch ( str[0] ) { // str has >= 2 characters, i.e, null string "" => safe to look at subscripts 0/1
329	case 'u':
330	if ( str[1] == '8' ) goto Default; // utf-8 characters => array of char
331	// lookup type of associated typedef
332	strtype = new TypeInstType( Type::Qualifiers( Type::Const ), "char16_t", false );
333	break;
334	case 'U':
335	strtype = new TypeInstType( Type::Qualifiers( Type::Const ), "char32_t", false );
336	break;
337	case 'L':
338	strtype = new TypeInstType( Type::Qualifiers( Type::Const ), "wchar_t", false );
339	break;
340	Default: // char default string type
341	default:
342	strtype = new BasicType( Type::Qualifiers( Type::Const ), BasicType::Char );
343	} // switch
344	ArrayType * at = new ArrayType( noQualifiers, strtype,
345	new ConstantExpr( Constant::from_ulong( str.size() + 1 - 2 ) ), // +1 for '\0' and -2 for '"'
346	false, false );
347	Expression * ret = new ConstantExpr( Constant( at, str, (unsigned long long int)0 ) ); // constant 0 is ignored for pure string value
348	if ( units.length() != 0 ) {
349	ret = new UntypedExpr( new NameExpr( units ), { ret } );
350	} // if
351
352	delete &str; // created by lex
353	return ret;
354	} // build_constantStr
355
356	Expression * build_field_name_FLOATING_FRACTIONconstant( const string & str ) {
357	if ( str.find_first_not_of( "0123456789", 1 ) != string::npos ) throw SemanticError( "invalid tuple index " + str );
358	Expression * ret = build_constantInteger( *new string( str.substr(1) ) );
359	delete &str;
360	return ret;
361	} // build_field_name_FLOATING_FRACTIONconstant
362
363	Expression * build_field_name_FLOATING_DECIMALconstant( const string & str ) {
364	if ( str[str.size()-1] != '.' ) throw SemanticError( "invalid tuple index " + str );
365	Expression * ret = build_constantInteger( *new string( str.substr( 0, str.size()-1 ) ) );
366	delete &str;
367	return ret;
368	} // build_field_name_FLOATING_DECIMALconstant
369
370	Expression * build_field_name_FLOATINGconstant( const string & str ) {
371	// str is of the form A.B -> separate at the . and return member expression
372	int a, b;
373	char dot;
374	stringstream ss( str );
375	ss >> a >> dot >> b;
376	UntypedMemberExpr * ret = new UntypedMemberExpr( new ConstantExpr( Constant::from_int( b ) ), new ConstantExpr( Constant::from_int( a ) ) );
377	delete &str;
378	return ret;
379	} // build_field_name_FLOATINGconstant
380
381	Expression * make_field_name_fraction_constants( Expression * fieldName, Expression * fracts ) {
382	if ( fracts ) {
383	if ( UntypedMemberExpr * memberExpr = dynamic_cast< UntypedMemberExpr * >( fracts ) ) {
384	memberExpr->set_member( make_field_name_fraction_constants( fieldName, memberExpr->get_aggregate() ) );
385	return memberExpr;
386	} else {
387	return new UntypedMemberExpr( fracts, fieldName );
388	} // if
389	} // if
390	return fieldName;
391	} // make_field_name_fraction_constants
392
393	Expression * build_field_name_fraction_constants( Expression * fieldName, ExpressionNode * fracts ) {
394	return make_field_name_fraction_constants( fieldName, maybeMoveBuild< Expression >( fracts ) );
395	} // build_field_name_fraction_constants
396
397	NameExpr * build_varref( const string * name ) {
398	NameExpr * expr = new NameExpr( *name, nullptr );
399	delete name;
400	return expr;
401	} // build_varref
402
403	// TODO: get rid of this and OperKinds and reuse code from OperatorTable
404	static const char * OperName[] = { // must harmonize with OperKinds
405	// diadic
406	"SizeOf", "AlignOf", "OffsetOf", "?+?", "?-?", "?\\?", "?*?", "?/?", "?%?", "\|\|", "&&",
407	"?\|?", "?&?", "?^?", "Cast", "?<<?", "?>>?", "?<?", "?>?", "?<=?", "?>=?", "?==?", "?!=?",
408	"?=?", "?@=?", "?\\=?", "?*=?", "?/=?", "?%=?", "?+=?", "?-=?", "?<<=?", "?>>=?", "?&=?", "?^=?", "?\|=?",
409	"?[?]", "...",
410	// monadic
411	"+?", "-?", "AddressOf", "*?", "!?", "~?", "++?", "?++", "--?", "?--",
412	}; // OperName
413
414	Expression * build_cast( DeclarationNode * decl_node, ExpressionNode * expr_node ) {
415	Type * targetType = maybeMoveBuildType( decl_node );
416	if ( dynamic_cast< VoidType * >( targetType ) ) {
417	delete targetType;
418	return new CastExpr( maybeMoveBuild< Expression >(expr_node) );
419	} else {
420	return new CastExpr( maybeMoveBuild< Expression >(expr_node), targetType );
421	} // if
422	} // build_cast
423
424	Expression * build_virtual_cast( DeclarationNode * decl_node, ExpressionNode * expr_node ) {
425	return new VirtualCastExpr( maybeMoveBuild< Expression >( expr_node ), maybeMoveBuildType( decl_node ) );
426	} // build_virtual_cast
427
428	Expression * build_fieldSel( ExpressionNode * expr_node, Expression * member ) {
429	return new UntypedMemberExpr( member, maybeMoveBuild< Expression >(expr_node) );
430	} // build_fieldSel
431
432	Expression * build_pfieldSel( ExpressionNode * expr_node, Expression * member ) {
433	UntypedExpr * deref = new UntypedExpr( new NameExpr( "*?" ) );
434	deref->location = expr_node->location;
435	deref->get_args().push_back( maybeMoveBuild< Expression >(expr_node) );
436	UntypedMemberExpr * ret = new UntypedMemberExpr( member, deref );
437	return ret;
438	} // build_pfieldSel
439
440	Expression * build_offsetOf( DeclarationNode * decl_node, NameExpr * member ) {
441	Expression * ret = new UntypedOffsetofExpr( maybeMoveBuildType( decl_node ), member->get_name() );
442	delete member;
443	return ret;
444	} // build_offsetOf
445
446	Expression * build_and_or( ExpressionNode * expr_node1, ExpressionNode * expr_node2, bool kind ) {
447	return new LogicalExpr( notZeroExpr( maybeMoveBuild< Expression >(expr_node1) ), notZeroExpr( maybeMoveBuild< Expression >(expr_node2) ), kind );
448	} // build_and_or
449
450	Expression * build_unary_val( OperKinds op, ExpressionNode * expr_node ) {
451	list< Expression * > args;
452	args.push_back( maybeMoveBuild< Expression >(expr_node) );
453	return new UntypedExpr( new NameExpr( OperName[ (int)op ] ), args );
454	} // build_unary_val
455
456	Expression * build_unary_ptr( OperKinds op, ExpressionNode * expr_node ) {
457	list< Expression * > args;
458	args.push_back( maybeMoveBuild< Expression >(expr_node) ); // xxx -- this is exactly the same as the val case now, refactor this code.
459	return new UntypedExpr( new NameExpr( OperName[ (int)op ] ), args );
460	} // build_unary_ptr
461
462	Expression * build_binary_val( OperKinds op, ExpressionNode * expr_node1, ExpressionNode * expr_node2 ) {
463	list< Expression * > args;
464	args.push_back( maybeMoveBuild< Expression >(expr_node1) );
465	args.push_back( maybeMoveBuild< Expression >(expr_node2) );
466	return new UntypedExpr( new NameExpr( OperName[ (int)op ] ), args );
467	} // build_binary_val
468
469	Expression * build_binary_ptr( OperKinds op, ExpressionNode * expr_node1, ExpressionNode * expr_node2 ) {
470	list< Expression * > args;
471	args.push_back( maybeMoveBuild< Expression >(expr_node1) );
472	args.push_back( maybeMoveBuild< Expression >(expr_node2) );
473	return new UntypedExpr( new NameExpr( OperName[ (int)op ] ), args );
474	} // build_binary_ptr
475
476	Expression * build_cond( ExpressionNode * expr_node1, ExpressionNode * expr_node2, ExpressionNode * expr_node3 ) {
477	return new ConditionalExpr( notZeroExpr( maybeMoveBuild< Expression >(expr_node1) ), maybeMoveBuild< Expression >(expr_node2), maybeMoveBuild< Expression >(expr_node3) );
478	} // build_cond
479
480	Expression * build_tuple( ExpressionNode * expr_node ) {
481	list< Expression * > exprs;
482	buildMoveList( expr_node, exprs );
483	return new UntypedTupleExpr( exprs );;
484	} // build_tuple
485
486	Expression * build_func( ExpressionNode * function, ExpressionNode * expr_node ) {
487	list< Expression * > args;
488	buildMoveList( expr_node, args );
489	return new UntypedExpr( maybeMoveBuild< Expression >(function), args, nullptr );
490	} // build_func
491
492	Expression * build_compoundLiteral( DeclarationNode * decl_node, InitializerNode * kids ) {
493	Declaration * newDecl = maybeBuild< Declaration >(decl_node); // compound literal type
494	if ( DeclarationWithType * newDeclWithType = dynamic_cast< DeclarationWithType * >( newDecl ) ) { // non-sue compound-literal type
495	return new CompoundLiteralExpr( newDeclWithType->get_type(), maybeMoveBuild< Initializer >(kids) );
496	// these types do not have associated type information
497	} else if ( StructDecl * newDeclStructDecl = dynamic_cast< StructDecl * >( newDecl ) ) {
498	if ( newDeclStructDecl->has_body() ) {
499	return new CompoundLiteralExpr( new StructInstType( Type::Qualifiers(), newDeclStructDecl ), maybeMoveBuild< Initializer >(kids) );
500	} else {
501	return new CompoundLiteralExpr( new StructInstType( Type::Qualifiers(), newDeclStructDecl->get_name() ), maybeMoveBuild< Initializer >(kids) );
502	} // if
503	} else if ( UnionDecl * newDeclUnionDecl = dynamic_cast< UnionDecl * >( newDecl ) ) {
504	if ( newDeclUnionDecl->has_body() ) {
505	return new CompoundLiteralExpr( new UnionInstType( Type::Qualifiers(), newDeclUnionDecl ), maybeMoveBuild< Initializer >(kids) );
506	} else {
507	return new CompoundLiteralExpr( new UnionInstType( Type::Qualifiers(), newDeclUnionDecl->get_name() ), maybeMoveBuild< Initializer >(kids) );
508	} // if
509	} else if ( EnumDecl * newDeclEnumDecl = dynamic_cast< EnumDecl * >( newDecl ) ) {
510	if ( newDeclEnumDecl->has_body() ) {
511	return new CompoundLiteralExpr( new EnumInstType( Type::Qualifiers(), newDeclEnumDecl ), maybeMoveBuild< Initializer >(kids) );
512	} else {
513	return new CompoundLiteralExpr( new EnumInstType( Type::Qualifiers(), newDeclEnumDecl->get_name() ), maybeMoveBuild< Initializer >(kids) );
514	} // if
515	} else {
516	assert( false );
517	} // if
518	} // build_compoundLiteral
519
520	// Local Variables: //
521	// tab-width: 4 //
522	// mode: c++ //
523	// compile-command: "make install" //
524	// End: //

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