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swift-mirror/lib/IRGen/ClassMetadataVisitor.h
Nate Chandler 525e25603f [IRGen] Pass argument/table to builders. 
Previously, the various generic builders implemented the methods
addGenericArgument and addGenericWitnessTable without being provided
what argument or witness table they were to add (because it was not
previously needed).  Now, the GenericRequirement is passed along to both
methods.
2020-01-09 17:25:31 -08:00

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//===--- ClassMetadataVisitor.h - CRTP for class metadata -------*- C++ -*-===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// A CRTP helper class for visiting all of the known fields in a class
// metadata object.
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_CLASSMETADATAVISITOR_H
#define SWIFT_IRGEN_CLASSMETADATAVISITOR_H
#include "swift/AST/ASTContext.h"
#include "swift/AST/SubstitutionMap.h"
#include "swift/SIL/SILDeclRef.h"
#include "swift/SIL/SILVTableVisitor.h"
#include "IRGen.h"
#include "NominalMetadataVisitor.h"
namespace swift {
namespace irgen {
class IRGenModule;
/// A CRTP class for laying out class metadata. Note that this does
/// *not* handle the metadata template stuff.
template <class Impl> class ClassMetadataVisitor
: public NominalMetadataVisitor<Impl>,
public SILVTableVisitor<Impl> {
using super = NominalMetadataVisitor<Impl>;
protected:
using super::IGM;
using super::asImpl;
/// The most-derived class.
ClassDecl *const Target;
ClassMetadataVisitor(IRGenModule &IGM, ClassDecl *target)
: super(IGM), Target(target) {}
public:
void layout() {
// HeapMetadata header.
asImpl().addDestructorFunction();
// Metadata header.
super::layout();
// ClassMetadata header. In ObjCInterop mode, this must be
// layout-compatible with an Objective-C class. The superclass
// pointer is useful regardless of mode, but the rest of the data
// isn't necessary.
// FIXME: Figure out what can be removed altogether in non-objc-interop
// mode and remove it. rdar://problem/18801263
asImpl().addSuperclass();
asImpl().addClassCacheData();
asImpl().addClassDataPointer();
asImpl().addClassFlags();
asImpl().addInstanceAddressPoint();
asImpl().addInstanceSize();
asImpl().addInstanceAlignMask();
asImpl().addRuntimeReservedBits();
asImpl().addClassSize();
asImpl().addClassAddressPoint();
asImpl().addNominalTypeDescriptor();
asImpl().addIVarDestroyer();
// Class members.
addClassMembers(Target);
}
/// Notes the beginning of the field offset vector for a particular ancestor
/// of a generic-layout class.
void noteStartOfFieldOffsets(ClassDecl *whichClass) {}
/// Notes the end of the field offset vector for a particular ancestor
/// of a generic-layout class.
void noteEndOfFieldOffsets(ClassDecl *whichClass) {}
private:
/// Add fields associated with the given class and its bases.
void addClassMembers(ClassDecl *theClass) {
// Visit the superclass first.
if (auto *superclassDecl = theClass->getSuperclassDecl()) {
if (superclassDecl->hasClangNode()) {
// Nothing to do; Objective-C classes do not add new members to
// Swift class metadata.
} else if (IGM.hasResilientMetadata(superclassDecl, ResilienceExpansion::Maximal)) {
// Runtime metadata instantiation will initialize our field offset
// vector and vtable entries.
//
// Metadata access needs to access our fields relative to a
// global variable.
asImpl().noteResilientSuperclass();
} else {
// NB: We don't apply superclass substitutions to members because we want
// consistent metadata layout between generic superclasses and concrete
// subclasses.
addClassMembers(superclassDecl);
}
}
// Note that we have to emit a global variable storing the metadata
// start offset, or access remaining fields relative to one.
asImpl().noteStartOfImmediateMembers(theClass);
// Add space for the generic parameters, if applicable.
// This must always be the first item in the immediate members.
asImpl().addGenericFields(theClass, theClass);
// If the class has resilient storage, we cannot make any assumptions about
// its storage layout, so skip the rest of this method.
if (IGM.isResilient(theClass, ResilienceExpansion::Maximal))
return;
// A class only really *needs* a field-offset vector in the
// metadata if:
// - it's in a generic context and
// - there might exist a context which
// - can access the class's field storage directly and
// - sees the class as having a possibly dependent layout.
//
// A context which knows that the class does not have a dependent
// layout should be able to just use a direct field offset
// (possibly a constant one).
//
// But we currently always give classes field-offset vectors,
// whether they need them or not.
asImpl().noteStartOfFieldOffsets(theClass);
for (auto field :
theClass->getStoredPropertiesAndMissingMemberPlaceholders()) {
addFieldEntries(field);
}
asImpl().noteEndOfFieldOffsets(theClass);
// If the class has resilient metadata, we cannot make any assumptions
// about its metadata layout, so skip the rest of this method.
if (IGM.hasResilientMetadata(theClass, ResilienceExpansion::Maximal))
return;
// Add vtable entries.
asImpl().addVTableEntries(theClass);
}
private:
void addFieldEntries(Decl *field) {
if (auto var = dyn_cast<VarDecl>(field)) {
asImpl().addFieldOffset(var);
return;
}
if (auto placeholder = dyn_cast<MissingMemberDecl>(field)) {
asImpl().addFieldOffsetPlaceholders(placeholder);
return;
}
}
};
/// An "implementation" of ClassMetadataVisitor that just scans through
/// the metadata layout, maintaining the offset of the next field.
template <class Impl>
class ClassMetadataScanner : public ClassMetadataVisitor<Impl> {
using super = ClassMetadataVisitor<Impl>;
protected:
Size NextOffset = Size(0);
ClassMetadataScanner(IRGenModule &IGM, ClassDecl *target)
: super(IGM, target) {}
public:
void addMetadataFlags() { addPointer(); }
void addNominalTypeDescriptor() { addPointer(); }
void addIVarDestroyer() { addPointer(); }
void addValueWitnessTable() { addPointer(); }
void addDestructorFunction() { addPointer(); }
void addSuperclass() { addPointer(); }
void addClassFlags() { addInt32(); }
void addInstanceAddressPoint() { addInt32(); }
void addInstanceSize() { addInt32(); }
void addInstanceAlignMask() { addInt16(); }
void addRuntimeReservedBits() { addInt16(); }
void addClassSize() { addInt32(); }
void addClassAddressPoint() { addInt32(); }
void addClassCacheData() { addPointer(); addPointer(); }
void addClassDataPointer() { addPointer(); }
void addMethod(SILDeclRef declRef) {
addPointer();
}
void addMethodOverride(SILDeclRef baseRef, SILDeclRef declRef) {}
void addFieldOffset(VarDecl *var) { addPointer(); }
void addFieldOffsetPlaceholders(MissingMemberDecl *mmd) {
for (unsigned i = 0, e = mmd->getNumberOfFieldOffsetVectorEntries();
i < e; ++i) {
addPointer();
}
}
void addGenericArgument(GenericRequirement requirement, ClassDecl *forClass) {
addPointer();
}
void addGenericWitnessTable(GenericRequirement requirement,
ClassDecl *forClass) {
addPointer();
}
void addPlaceholder(MissingMemberDecl *MMD) {
for (auto i : range(MMD->getNumberOfVTableEntries())) {
(void)i;
addPointer();
}
}
private:
// Our layout here assumes that there will never be unclaimed space
// in the metadata.
void addPointer() {
NextOffset += super::IGM.getPointerSize();
}
void addInt32() {
NextOffset += Size(4);
}
void addInt16() {
NextOffset += Size(2);
}
};
} // end namespace irgen
} // end namespace swift
#endif
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