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view dmd/dump.c @ 1168:ab186e535e72
A different fix to #218 and DMD2682 that does not lead to constant folding regressions.
Fixes run/const_15, run/c/const_16_B.
The price is removing the lvalueness of struct literals. If it turns out too
much code depends on this behavior or we don't want to break with DMD, we
could keep struct literals as lvalues and instead convert struct literals used
as expression initializers into struct initializers.
author | Christian Kamm <kamm incasoftware de> |
---|---|
date | Sun, 29 Mar 2009 11:43:45 +0200 |
parents | eeb8b95ea92e |
children |
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// Compiler implementation of the D programming language // Copyright (c) 1999-2006 by Digital Mars // All Rights Reserved // written by Walter Bright // http://www.digitalmars.com // License for redistribution is by either the Artistic License // in artistic.txt, or the GNU General Public License in gnu.txt. // See the included readme.txt for details. #include <stdio.h> #include <ctype.h> #include <assert.h> #include "mars.h" #include "mtype.h" #include "declaration.h" #include "expression.h" #include "template.h" static void indent(int indent) { int i; for (i = 0; i < indent; i++) printf(" "); } static char *type_print(Type *type) { return type ? type->toChars() : (char *) "null"; } void dumpExpressions(int i, Expressions *exps) { for (size_t j = 0; j < exps->dim; j++) { Expression *e = (Expression *)exps->data[j]; indent(i); printf("(\n"); e->dump(i + 2); indent(i); printf(")\n"); } } void Expression::dump(int i) { indent(i); printf("%p %s type=%s\n", this, Token::toChars(op), type_print(type)); } void IntegerExp::dump(int i) { indent(i); printf("%p %jd type=%s\n", this, (intmax_t)value, type_print(type)); } void IdentifierExp::dump(int i) { indent(i); printf("%p ident '%s' type=%s\n", this, ident->toChars(), type_print(type)); } void DsymbolExp::dump(int i) { indent(i); printf("%p %s type=%s\n", this, s->toChars(), type_print(type)); } void VarExp::dump(int i) { indent(i); printf("%p %s var=%s type=%s\n", this, Token::toChars(op), var->toChars(), type_print(type)); } void UnaExp::dump(int i) { indent(i); printf("%p %s type=%s e1=%p\n", this, Token::toChars(op), type_print(type), e1); if (e1) e1->dump(i + 2); } void CallExp::dump(int i) { UnaExp::dump(i); dumpExpressions(i, arguments); } void SliceExp::dump(int i) { indent(i); printf("%p %s type=%s e1=%p\n", this, Token::toChars(op), type_print(type), e1); if (e1) e1->dump(i + 2); if (lwr) lwr->dump(i + 2); if (upr) upr->dump(i + 2); } void DotIdExp::dump(int i) { indent(i); printf("%p %s type=%s ident=%s e1=%p\n", this, Token::toChars(op), type_print(type), ident->toChars(), e1); if (e1) e1->dump(i + 2); } void DotVarExp::dump(int i) { indent(i); printf("%p %s type=%s var='%s' e1=%p\n", this, Token::toChars(op), type_print(type), var->toChars(), e1); if (e1) e1->dump(i + 2); } void DotTemplateInstanceExp::dump(int i) { indent(i); printf("%p %s type=%s ti='%s' e1=%p\n", this, Token::toChars(op), type_print(type), ti->toChars(), e1); if (e1) e1->dump(i + 2); } void DelegateExp::dump(int i) { indent(i); printf("%p %s func=%s type=%s e1=%p\n", this, Token::toChars(op), func->toChars(), type_print(type), e1); if (e1) e1->dump(i + 2); } void BinExp::dump(int i) { indent(i); printf("%p %s type=%s e1=%p e2=%p\n", this, Token::toChars(op), type_print(type), e1, e2); if (e1) e1->dump(i + 2); if (e2) e2->dump(i + 2); }