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trick/trick_source/codegen/Interface_Code_Gen/ClassVisitor.cpp
Alex Lin ce3ae67633 ATTRIBUTES for a member whose type is typedef'd in a template are wrong 
I found that in ICG I have access to the canonical type of a variable which
in most cases is the type I should process.  Doing this eliminates the
need for some of the code that resolved typedefs because the canonical type
has already done that.

refs #200
2016-03-16 13:24:59 -05:00

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#include <iostream>
#include <sstream>
#include "llvm/Support/CommandLine.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/FileManager.h"
#include "clang/AST/RecordLayout.h"
#include "clang/AST/ASTContext.h"
#include "ClassVisitor.hh"
#include "EnumVisitor.hh"
#include "EnumValues.hh"
#include "FieldVisitor.hh"
#include "Utilities.hh"
#include "PrintAttributes.hh"
extern llvm::cl::opt< int > debug_level ;
CXXRecordVisitor::CXXRecordVisitor(
clang::CompilerInstance & in_ci ,
CommentSaver & in_cs ,
HeaderSearchDirs & in_hsd ,
PrintAttributes & in_pa ,
bool in_inherited ,
bool in_virtual_inherited ,
bool in_include_virtual_base ,
unsigned int in_base_class_offset) :
ci(in_ci) ,
cs(in_cs) ,
hsd(in_hsd) ,
pa(in_pa) ,
cval(in_inherited , in_virtual_inherited) ,
include_virtual_base(in_include_virtual_base) ,
base_class_offset(in_base_class_offset) ,
access_spec_found(false)
{
//cval = new ClassValues(in_inherited , in_virtual_inherited) ;
}
CXXRecordVisitor::~CXXRecordVisitor() {
}
bool CXXRecordVisitor::TraverseDecl(clang::Decl *d) {
if (!d)
return true;
if (d->isImplicit())
return true;
//std::cout << "CV " << d->getDeclKindName() << std::endl ;
switch ( d->getKind() ) {
case clang::Decl::ClassTemplateSpecialization : {
TraverseClassTemplateSpecializationDecl(static_cast<clang::ClassTemplateSpecializationDecl *>(d)) ;
}
break ;
case clang::Decl::CXXRecord : {
clang::CXXRecordDecl * crd = static_cast<clang::CXXRecordDecl *>(d) ;
/* The definition of the record must exist before we can process it. The definition is
NULL when this is only a forward declaration of a class. We also only want to
process embedded classes that have public access. */
clang::RecordDecl * rd = crd->getDefinition() ;
if ( rd != NULL and rd->getAccess() == clang::AS_public ) {
if ( isInUserCode(ci , crd->getRBraceLoc(), hsd) ) {
CXXRecordVisitor embedded_cvis(ci , cs, hsd , pa, false, false, true) ;
embedded_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(d)) ;
pa.printClass(embedded_cvis.get_class_data()) ;
}
}
}
break ;
case clang::Decl::Enum : {
clang::EnumDecl * ed = static_cast<clang::EnumDecl *>(d) ;
/* This is an embedded enumeration within a class. Only process it if is public */
if ( ed->getAccess() == clang::AS_public ) {
EnumVisitor evis(ci, hsd) ;
evis.TraverseDecl(ed) ;
//if ( evis.get_enum_data() != NULL ) {
pa.printEnum(evis.get_enum_data()) ;
//}
}
}
break ;
case clang::Decl::Field : {
FieldVisitor fvis(ci , hsd , cs, pa, cval.getName() , access_spec_found , cval.isInherited(), cval.isVirtualInherited(), base_class_offset) ;
fvis.TraverseFieldDecl(static_cast<clang::FieldDecl *>(d)) ;
cval.addFieldDescription(fvis.get_field_data()) ;
}
break ;
case clang::Decl::Friend : {
TraverseFriendDecl(static_cast<clang::FriendDecl *>(d)) ;
}
break ;
case clang::Decl::Var : {
/* Static fields appear as vars. Treat it as a field. */
FieldVisitor fvis(ci , hsd , cs, pa, cval.getName() , access_spec_found , cval.isInherited(), cval.isVirtualInherited(), base_class_offset) ;
fvis.TraverseVarDecl(static_cast<clang::VarDecl *>(d)) ;
cval.addFieldDescription(fvis.get_field_data()) ;
}
break ;
case clang::Decl::AccessSpec : {
access_spec_found = true ;
}
break ;
default :
break ;
}
return true ;
}
bool CXXRecordVisitor::VisitDecl(clang::Decl *d) {
if ( debug_level >=2 ) {
std::cout << "\n\033[34mCXXRecordVisitor VisitDecl Decl = " << d->getDeclKindName() << "\033[0m" << std::endl ;
}
return true ;
}
bool CXXRecordVisitor::VisitType(clang::Type *t) {
if ( debug_level >=2 ) {
std::cout << "\nCXXRecordVisitor Type = " << t->getTypeClassName() << std::endl ;
}
return true;
}
static bool isTypeTemplateSpecialization(const clang::Type * type_ptr) {
if ( type_ptr->getTypeClass() == clang::Type::TemplateSpecialization ) {
return true ;
} else if ( type_ptr->getTypeClass() == clang::Type::Elaborated ) {
const clang::ElaboratedType * et = type_ptr->getAs<clang::ElaboratedType>() ;
//std::cout << "\ninherited Type = " << et->getNamedType().getTypePtr()->getTypeClassName() << "" << std::endl ;
return et->getNamedType().getTypePtr()->getTypeClass() == clang::Type::TemplateSpecialization ;
}
return false ;
}
bool CXXRecordVisitor::VisitCXXRecordDecl( clang::CXXRecordDecl *rec ) {
if ( debug_level >= 2 ) {
rec->dump() ; std::cout << std::endl ;
}
if ( rec->getDefinition() == NULL ) {
return true ;
}
// If this class needs a default constructor, then the complier will generate one and we can call it.
if ( rec->needsImplicitDefaultConstructor() ) {
cval.setHasDefaultConstructor(true) ;
} else {
// Test all constructors to see if any of those are the default and public
clang::CXXRecordDecl::ctor_iterator cit ;
for ( cit = rec->ctor_begin() ; cit != rec->ctor_end() ; cit++ ) {
if ( (*cit)->isDefaultConstructor() and (*cit)->getAccess() == clang::AS_public ) {
cval.setHasDefaultConstructor(true) ;
}
}
}
// Test to see there is no declared destructor or it is declared public
clang::CXXDestructorDecl * dd = rec->getDestructor() ;
if ( dd == NULL or dd->getAccess() == clang::AS_public ) {
cval.setHasPublicDestructor(true) ;
}
cval.setFileName(getFileName(ci , rec->getRBraceLoc(), hsd)) ;
cval.setAbstract(rec->isAbstract()) ;
cval.setName(rec->getNameAsString()) ;
cval.setPOD(rec->isPOD()) ;
clang::CXXRecordDecl::base_class_iterator bcii ;
//std::cout << "parsing " << cval.getName() << std::endl ;
//std::cout << " processing inheritance " << rec->getNumBases() << " " << rec->getNumVBases() << "" << std::endl ;
for ( bcii = rec->bases_begin() ; bcii != rec->bases_end() ; bcii++ ) {
if ( !bcii->isVirtual() ) {
const clang::Type * temp = bcii->getType().getTypePtr() ;
//std::cout << "\ninherited Type = " << temp->getTypeClassName() << "" << std::endl ;
const clang::RecordType * rt = temp->getAs<clang::RecordType>() ;
if ( rt != NULL ) {
clang::RecordDecl * rd = rt->getDecl() ;
//std::cout << " " << cval.getName() << " inherits from " << rd->getNameAsString() << "" << std::endl ;
//rd->dump() ; std::cout << std::endl ;
if ( isInUserOrTrickCode(ci , rd->getRBraceLoc(), hsd) ) {
const clang::ASTRecordLayout &record_layout = rec->getASTContext().getASTRecordLayout(rec);
unsigned int inherit_class_offset ;
inherit_class_offset = record_layout.getBaseClassOffset(llvm::cast<clang::CXXRecordDecl>(rd)).getQuantity() ;
//std::cout << " inherit_class_offset = " << inherit_class_offset << "" << std::endl ;
//std::cout << " " << getFileName(ci , rd->getRBraceLoc(), hsd) << "" << std::endl ;
CXXRecordVisitor inherit_cvis(ci , cs, hsd , pa, true, bcii->isVirtual(), false, inherit_class_offset) ;
inherit_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(rd)) ;
cval.addInheritedFieldDescriptions(inherit_cvis.get_class_data()->getFieldDescription()) ;
// clear the field list in the inherited class so they are not freed when inherit_cvis goes out of scope.
inherit_cvis.get_class_data()->clearFieldDescription() ;
// If we are inheriting from a template specialization, don't save the inherited class. This list
// is maintained to call init_attr of the inherited classes. A template specialization does not have
// these attributes.
if ( ! isTypeTemplateSpecialization(temp) ) {
// We want to save the inherited class data, but it's going to go out of scope so we need to make
// a copy of it.
ClassValues * icv = new ClassValues(*(inherit_cvis.get_class_data())) ;
// The inherited classes of this inherited class are not required in the copy, and they are going out of scope
cval.saveInheritAncestry(icv) ;
icv->clearInheritedClass() ;
// Save the copy of the inherited class to the current class
cval.addInheritedClass(icv) ;
}
}
}
}
}
//std::cout << " end inheritance" << std::endl ;
/* Virtual base classes are parsed once at the top. Each inherited class call to CXXRecordVisitor sets this flag to false. */
if ( include_virtual_base ) {
for ( bcii = rec->vbases_begin() ; bcii != rec->vbases_end() ; bcii++ ) {
const clang::Type * temp = bcii->getType().getTypePtr() ;
//std::cout << "\ninherited Type = " << temp->getTypeClassName() << "" << std::endl ;
const clang::RecordType * rt = temp->getAs<clang::RecordType>() ;
if ( rt != NULL ) {
clang::RecordDecl * rd = rt->getDecl() ;
//std::cout << " " << cval.getName() << " virtually inherits from " << rd->getNameAsString() << "" << std::endl ;
//rd->dump() ; std::cout << std::endl ;
if ( isInUserOrTrickCode(ci , rd->getRBraceLoc(), hsd) ) {
const clang::ASTRecordLayout &record_layout = rec->getASTContext().getASTRecordLayout(rec);
unsigned int inherit_class_offset ;
// Virtual base classes have a fixed offset that cannot be accessed at runtime. We have clang's calculation
// to where the base class will be here. Hopefully it matches what other compilers calculate. :(
inherit_class_offset = record_layout.getVBaseClassOffset(llvm::cast<clang::CXXRecordDecl>(rd)).getQuantity() ;
//std::cout << " inherit_class_offset = " << inherit_class_offset << "" << std::endl ;
//std::cout << " " << getFileName(ci , rd->getRBraceLoc(), hsd) << "" << std::endl ;
CXXRecordVisitor inherit_cvis(ci , cs, hsd , pa, true, bcii->isVirtual(), false, inherit_class_offset) ;
inherit_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(rd)) ;
cval.addInheritedFieldDescriptions(inherit_cvis.get_class_data()->getFieldDescription()) ;
// clear the field list in the inherited class so they are not freed when inherit_cvis goes out of scope.
inherit_cvis.get_class_data()->clearFieldDescription() ;
// If we are inheriting from a template specialization, don't save the inherited class. This list
// is maintained to call init_attr of the inherited classes. A template specialization does not have
// these attributes.
if ( ! isTypeTemplateSpecialization(temp) ) {
ClassValues * icv = new ClassValues(*(inherit_cvis.get_class_data())) ;
// The inherited classes of this inherted class are not required in the copy, and they are going out of scope
icv->clearInheritedClass() ;
// Save the copy of the inherited class to the current class
cval.addInheritedClass(icv) ;
}
}
}
}
}
cval.getNamespacesAndClasses(rec->getDeclContext()) ;
// clears obscured inherited variables caused by diamond inheritance
cval.clearAmbiguousVariables() ;
// sets the container class for all fields to the current class name
cval.setContainerClassForFields() ;
return true;
}
bool CXXRecordVisitor::VisitFriendDecl( clang::FriendDecl *fd ) {
//std::cout << " ClassVisitor::VisitFriendDecl" << std::endl ;
clang::TypeSourceInfo * tsi = fd->getFriendType() ;
if ( tsi == NULL ) {
clang::NamedDecl * nd = fd->getFriendDecl() ;
if ( nd != NULL and nd->getDeclName().isIdentifier()) {
//nd->dump() ;
std::string init_func = std::string("init_attr") ;
std::stringstream name_sp ;
cval.print_namespaces( name_sp , "__") ;
init_func += name_sp.str() + cval.getName() ;
std::string friend_str = nd->getName().str() ;
if ( ! friend_str.find(init_func) ) {
//std::cout << " found a friend!" << std::endl ;
cval.setHasInitAttrFriend(true) ;
}
}
}
return true ;
}
ClassValues * CXXRecordVisitor::get_class_data() {
return &cval ;
}
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