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trick/trick_source/codegen/Interface_Code_Gen/ClassVisitor.cpp
Alex Lin f63f44d876 Ignore privacy 
Changed the storage of offsets from bytes to bits to better handle bitfields.
Added code to track classes that are defined within other classes and are
private/protected.  These classes cannot be used in templates because our
io_src code declares variables outside of the class that would try and use
these private/protected variables.  When a template is found to use a
private/protected class it is skipped.

refs #218
2016-04-13 16:07:15 -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 "CommentSaver.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_include_virtual_base ) :
ci(in_ci) ,
cs(in_cs) ,
hsd(in_hsd) ,
pa(in_pa) ,
cval() ,
include_virtual_base(in_include_virtual_base) {}
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 ) {
if ( rd->getAccess() == clang::AS_public ) {
if ( isInUserCode(ci , crd->getRBraceLoc(), hsd) ) {
CXXRecordVisitor embedded_cvis(ci , cs, hsd , pa, true) ;
embedded_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(d)) ;
pa.printClass(embedded_cvis.get_class_data()) ;
}
} else {
// protected and private embedded classes cannot be used outside of their class
// in our auto-generated code. Keep a set of all classes of this type so we can
// test against them.
ClassValues temp_cv ;
temp_cv.getNamespacesAndClasses(crd->getDeclContext()) ;
private_embedded_classes.insert(temp_cv.getFullyQualifiedName() + crd->getNameAsString()) ;
//std::cout << "marking private " << temp_cv.getFullyQualifiedName() + crd->getNameAsString() << std::endl ;
}
}
}
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) ;
pa.printEnum(evis.get_enum_data()) ;
}
}
break ;
case clang::Decl::Field : {
FieldVisitor fvis(ci , hsd , cs, pa, cval.getName()) ;
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()) ;
fvis.TraverseVarDecl(static_cast<clang::VarDecl *>(d)) ;
cval.addFieldDescription(fvis.get_field_data()) ;
}
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 ;
}
// Return false to stop processing if there is no definition of this class
if ( rec->getDefinition() == NULL ) {
return false ;
}
// Return false to stop processing if this header file is excluded by one of many reasons.
std::string header_file_name = getFileName(ci , rec->getRBraceLoc(), hsd) ;
char * rp = almostRealPath(header_file_name.c_str()) ;
if ( rp == NULL ||
!hsd.isPathInUserDir(rp) ||
hsd.isPathInExclude(rp) ||
hsd.isPathInICGExclude(rp) ||
hsd.isPathInExtLib(rp) ||
cs.hasICGNo(header_file_name) ) {
return false ;
}
// 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(header_file_name) ;
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, false) ;
inherit_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(rd)) ;
cval.addInheritedFieldDescriptions(inherit_cvis.get_class_data()->getFieldDescription(),
inherit_class_offset) ;
// 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
// havethese 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(inherit_cvis.get_class_data()->getFullyQualifiedTypeName()) ;
}
}
}
}
}
//std::cout << " end inheritance" << std::endl ;
// Virtual base classes are parsed once
// When processing inherited classes include_virtual_base will be set to true
// so we don't process virtual inherited classes multiple times.
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.
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, false) ;
inherit_cvis.TraverseCXXRecordDecl(static_cast<clang::CXXRecordDecl *>(rd)) ;
cval.addInheritedFieldDescriptions(inherit_cvis.get_class_data()->getFieldDescription(), inherit_class_offset) ;
// 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(inherit_cvis.get_class_data()->getFullyQualifiedTypeName()) ;
}
}
}
}
}
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;
}
// Test if we have a friend with the name "init_attr<class_name>"
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 ;
}
std::set<std::string> CXXRecordVisitor::private_embedded_classes ;
bool CXXRecordVisitor::isPrivateEmbeddedClass( std::string in_name ) {
size_t pos ;
while ((pos = in_name.find("class ")) != std::string::npos ) {
in_name.erase(pos , 6) ;
}
while ((pos = in_name.find("struct ")) != std::string::npos ) {
in_name.erase(pos , 7) ;
}
std::set<std::string>::iterator it ;
it = private_embedded_classes.find(in_name) ;
if ( it != private_embedded_classes.end() ) {
return true ;
}
return false ;
}
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